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1. cccscceeseeceeeceeeeceeaeesceaeceeaeceeeeeeaues 79 4 2 PILOT PLU Gase EE 80 4 3 DISPLAY SYSTEM ioe oreen staon EEEa E e EE OAE E E E EAR 80 4 4 INSTALLATION OF THE BIIT BUILT IN INTEGRITY TEST FUNCTION 80 gt DYNAMIC DATA INPUT egenen Seege eege Ee Eeer 80 5 1 EXTERNAL SENSORS ege EE EE 80 5 2 POSITION COG AND SOG oriee a deta ds cos cede denden seed E E EERS 80 5 3 IEA DING deed ES 81 5 4 IRATE OF TORNADO e Eet 81 5 5 NAVIGATIONAL STATUS ss 02s saseet lets code sats AEN DEEN 81 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 D STATIC INFORMATION Ets eeh EE get EEN 81 6 1 ENTERED AT INITIAL INSTALLATION OF AIS 81 6 2 REFERENCE POINT OF POSITION sccccceseecceeeeeecceceeaeeeeeccaaeeeeceaaeseecaaaeeees 82 6 3 SHIP S DIMENSIONS EE 82 Long Range functiO nis eege anit er eee elites 83 IMO Guidelines ANNEX A RATRORTURN AAA 84 IMO Guidelines ANNEX B Type Of Ship Table A 86 10 IMO Guidelines ANNEX C Recommended IEC 61162 Sentences 87 ANNEX 2 SN CIRCULAR ON GUIDANCE ON THE APPLICATION OF AIS BINARY MESSAGES SN Circ 2301 88 ANNEX 3 ABBREVIA ON Sa ee aeaiia ited es Weeds EES Ee 98 ANNEX 4 DRAFT RECOMMENDATION ON PERFORMANCE STANDARDS FOR THE PRESENTATION OF NAVIGATION RELATED INFORMATION ON SHIPBORNE NAVIGATIONAL DISPLAYS ieee ceccececcceeeeseeeeeceeecesnennaeeeees 100 IALA Guidelines on Automatic Ident2. e A Performance Standard adopted by the International Maritime Organization IMO e A Technical Specification adopted by the International Telecommunications Union ITU e A Test Type Approval Standard adopted by the International Electrotechnical Commission IEC 2 3 1 IMO Performance Standard The Performance Standard specifies the operational requirement as required by the user operator and states that the AIS equipment shall have the following functions Ship to ship capability Ship to shore capability including long range application Automatic and continuous operation Provide information messages Use maritime VHF channels IALA developed the initial draft of the standard for the IMO gathering a special group of industry and national members for the task This was refined at NAV 43 July 1997 and formally adopted by MSC 69 on 11 May 1998 being issued as annex 3 to IMO Resolution MSC 74 69 Recommendation on Performance Standards for a Ship borne Automatic Identification System AIS At the same time the IMO NAV 43 requested the ITU to prepare a Recommendation on the Technical Characteristics for the AIS and to allocate two worldwide channels for its use within the maritime mobile VHF band 2 3 2 Details of Functional Requirements In terms of system functionality the performance standards for AIS IMO Resolution MSC 74 69 Annex 3 requires that the system should be capable of operating e Inthe ship to s
3. Other types 9 No additional information ei 9 reserved for future use of ship DG DangerousGoods HS HarmfulSubstances MP Marine Pollutants NOTE The identifier should be constructed by selecting the appropriate first and second digits Table 24 Identifiers to be used by ships to report their type 86 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 10 IMO GUIDELINES ANNEX C RECOMMENDED IEC 61162 SENTENCES To connect external sensors it is recommended to configure the following sentences as indicated below Data IEC 61162 1 Sentence formatters Preferred Optional Reference datum DTM Positioning system GNS GGA RMC Time of position GLL Latitude Longitude Position accuracy Speed Over Ground SOG VBW VTG OSD RMC Course Over Ground COG RMC VTG OSD Heading HDT OSD RAIM indicator GBS Rate Of Turn ROT ROT Table 25 Preferred IEC 61162 1 Sensor Sentences 87 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 ANNEX 2 SN CIRCULAR ON GUIDANCE ON THE APPLICATION OF AIS BINARY MESSAGES SN Circ 236 1 Automatic Identification System AIS is a working system for ship identification and tracking that has the capability of the service of binary messages The concept functional requirements and technical constraints are described in ap
4. IALA Recommendation A 124 On AIS Shore Stations And Networking Aspects Related To The AIS Service IALA Recommendation A 126 on AIS for Aids to Navigation The following standards and specifications are being developed IEC Standard 62287 Maritime Navigational and radiocommunication equipment and systems Class B shipborne installation of the Universal Automatic Identification System AIS using VHF TDMA techniques IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 PART 1 OPERATIONAL ASPECTS OF AIS 13 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 2 OVERVIEW OPERATIONAL amp FUNCTIONAL REQUIREMENTS 2 1 GENERAL DESCRIPTION AND DEFINITION Initially called the Ship Ship Ship Shore 4S broadcast transponder this technology formed the basis of what eventually became known as the Universal Ship borne Automatic Identification System AIS It is now simply known as Automatic Identification System or AIS The IMO performance standard for AIS was adopted in 1998 This requires that AIS shall e Provide information including the ship s identity type position course speed navigational status and other safety related information automatically to appropriately equipped shore stations other ships and aircraft e Receive such information automatically from similarly fitted ships e Monitor and
5. 46 40 51 3 64 83 68 88 4 92 120 96 126 5 117 158 121 163 Table 17 The difference between the available capacities is due to the MMSI addressing of the recipient in case of addressed messages It is recommended that any application minimise the use of slots by limiting the number of binary data bytes The throughput time of binary messages is strongly dependent on the required number of subsequent slots to be used The use of binary messages is dependent on the availability of applications external to the AIS stations The binary messages are transparent to the AIS itself To determine the availability of applications of a station an addressed binary message with International Function Message 3 Capability Interrogation can be sent by a ship or base station This must be done for both the international branch and the regional branch separately The reply is a binary message to the requesting station with International Message 4 Capability Reply containing a list of all applications of the requested area international or regional When no external device is connected to the AIS station no response will be given After this procedure the available applications can be used The external unit will neglect all other applications Function Identifiers Fl allow for the operation of several applications on the same VHF Data Link VDL of the AIS There are 64 Fl s available all of which can be allocated to the following groups of
6. Field not required if AWP 0 Advised Turning Radius i Advised Turning Radius at Advised Waypoint i in metres 0 not available default 1 4 095 metres Field required if and as often as 1 lt i lt AWP i 1 2 Ek Field not required if AWP 0 Advised Route specified by Description of the advised route in textual form e g West Channel Textual Description maximum 20 characters using 6 bit ASCII CECE EO O EO OCOEO O COEOEE not available field must not be omitted Table 20 Advice of VTS Waypoints Route Plan Message Structure The number of slots used for this message depends on the number of Next Waypoints transmitted as follows Number of Advised Waypoints transmitted 0 1 iets e eee lft ee ie Te 8 4 5 IFM 19 EXTENDED SHIP STATIC AND VOYAGE RELATED DATA IFM 19 is used by a ship to report height above keel air draught as a component of voyage related data This additional information would normally be supplied at the Master s discretion or on request from a competent authority Parameter Description Height over keel in 1 10 m 2047 height over keel 204 7 m or greater 0 not available default This IFM uses one slot Table 21 Height over Keel 8 4 6 63 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 8 4 7 IFM 40 Number of Persons Onboard IFM 40 is used by a ship to report the numbe
7. The dimension A should be in the direction of the transmitted heading information bow Reference point of reported position not available but dimensions of ship are available A C 0 and B 0 and D 0 Neither reference point of reported position nor dimensions of ship available A B C D 0 default For use in the message table A most significant field D least significant field Figure 9 Ship s Dimensions In the rare case of an EPFD antenna installed in the portside corner of a rectangular bow the values A and C would be zero Should this be the case one of these values should be set to 1 in order to avoid misinterpretation as not available because A C 0 is used for that purpose 7 LONG RANGE FUNCTION The AIS long range function needs a compatible long range communication system e g INMARSAT C or MF HF radio as part of GMDSS If this is available a connection between that communication system and the Class A mobile unit can be made This connection is needed to activate the LR function of AIS Its input output port should meet the requirement of IEC 61162 2 83 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 8 IMO GUIDELINES ANNEX A RATE OF TURN The AIS provides the Rate of Turn ROT information to other ships in order to early detect ships manoeuvres There are two possible parameters indicating turning of a ship deri
8. otherwise affected by the proximity of land and buildings The resultant shadow areas can cause a VTS radar to lose track thereby denying the VTS centre the ability to monitor a vessel movements accurately at what could be a critical time The loss of tracking will invariably result in the need to reacquire and re identify lost tracks thereby increasing the workload within the VTS centre Whilst AIS tracks will avoid the great majority of such effects the very close proximity of buildings and bridges sometimes known as the urban canyon effect can cause difficulties for AIS transponders in heavily built up areas This is a consequence of inhibiting either the reception of the differential GNSS signal by the AIS transponder or the transmission of the subsequent AIS message e Traffic image accuracy Radar tracking can similarly be interrupted when two vessels pass close to one another with the result that the radar tracking of one contact is confused by the proximity of the other Importantly this can result in the identity of one track transferring or swapping to the other Such a situation introduces a potentially dangerous inaccuracy in the vessel traffic display image unless 28 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 noticed and rectified quickly by VTS operators Again the consequence of this phenomenon is further work for the VTS centre The more
9. the Sub Committee on NAV agreed to allow two additional messages in the four year trial period to test the process of introducing new binary messages to users manufacturers and the Organisation During this trial period the distinction between IAI s and RAI s made in this section will remain suspended 8 4 1 Binary Messages and Functional Identifiers AIS allows the transfer of Binary Messages via the VDL as a means of communication for external applications as specified in ITU R M 1371 1 Binary messages can be broadcast Message 8 in such a way that every AIS receiver within the VHF range will receive them and they can be addressed Message 6 to one particular receiving station by using the MMSI of the recipient The latter situation will result in a Binary Acknowledgement Message 7 to confirm that the addressed binary message was received All binary messages are composed by an external application on the transmission side and can only be used by the same external application connected to the AIS on the receiver side The general set up of the use of binary messages is as follows Application AIS AIS Application Tx Rx Figure 4 To distinguish between the different types of applications the following Application Identifier header will be used as part of the binary data stream consisting of e Designated Area Code DAC Application Identifier e Function Identifier Fl The Binary Data field in both mes
10. 17 within a Broadcast Binary Message then the information will be available to all other AIS stations in its vicinity When transmitting a Route Plan the transmitting station can include up to 14 Next Waypoints NWP if available and or a route specified by a textual description The NWPs should be transmitted in the sequence of the intended passage 61 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Parameter Description NWP Number of Next Waypoints NWP available 1 14 0 no Next Waypoint available default 15 not used WP i Lon Longitude of Next Waypoint i in 1 10 000 min 180 degrees East positive West negative Field required if and as often as 1 lt i lt NWP i 1 2 3 14 Field not required if NWP 0 WP i Lat Latitude of Next Waypoint i in 1 10 000 min 90 degrees North positive South negative Field required if and as often as 1 lt i lt NWP i 1 2 3 14 Field not required if NWP 0 Route specified by Description of the route information in textual form e g West Textual Description Channel maximum 20 characters using 6 bit ASCII CECE OCCECEOCCECE O ECE not available field must not be omitted Table 19 Ship Waypoints Route Plan Message Structure The number of slots used for this message depends on the number of Next Waypoints transmitted as follows Number of Next Waypoints
11. 2 DG PS See note 2 Differential GPS Differential GLONASS DGLONASS DISP Display See note 2 Differential GNSS DGNSS SE DIST Distance Differential GPS DGPS 8 e DIVE Vessel Engaged in Diving 4 Operations applies to AIS Digital Selective Calling DSC DPTH Depth Display DISP DR Dead Reckoning Dead Reckoned Position Distance DIST DRG Vessel Engaged in Dredging or Underwater Operations applies to AIS Distance Root Mean Square DRIFT Drift D RMS See note 2 Distance To Go DTG DRMS Seente Distance Root Mean Square Drift DRIFT DSC Digital Selective Calling Dropped D DTG Distance To Go e g dropped EBL origin East E E East Electronic Bearing Line EBL EBL Electronic Bearing Line Electronic Chart Display and ECDIS ECDIS Electronic Chart Display and Information System Information System Electronic Navigational Chart ENC ENC Electronic Navigational Chart Electronic Position Fixing EPFS ENH Enhance System Electronic Range and Bearing ERBL ENT Enter Line Enhance ENH EP Estimated Position Enter ENT EPFS Electronic Position Fixing System Equipment EQUIP EQUIP Equipment Error ERR ERBL Electronic Range and Bearing Line Estimated Position EP ERR Error Estimated Time of Arrival ETA ETA Estimated Time of Arrival Estimated Time of Departure ETD ETD Estimated Time of Departure Event EVENT EVENT Event Exclusion Zone EZ EXT E
12. 3 Colours 8 3 1 Multicoloured display equipment should be used except where monochrome displays are permitted within individual performance standards adopted by the Organization 8 3 2 Multicoloured operational displays including multifunction displays e g conning displays should provide a minimum of 64 colours except where permitted or not required by the Organization or when used for a single specific purpose e g speed log echo sounder 8 4 Screen resolution 112 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Operational display equipment including multifunction displays e g conning displays should provide a minimum screen resolution of 1280 x 1024 or equivalent for a different aspect ratio except where permitted or not required by the Organization or when used for a single specific purpose e g speed log echo sounder 8 5 Screen viewing angle The display should support the reading of information under all ambient light conditions simultaneously by at least two users from standing and sitting operator positions likely to be found on the bridge of a ship Appendix DEFINITIONS Activated AIS target A target representing the automatic or manual activation of a sleeping target for the display of additional graphically presented information AIS target A target generated from an AIS message Associated target A target simultaneously representing
13. OVERVIEW The IMO performance standard for AIS requires that the equipment should function as a means for littoral States to obtain information about a ship and its cargo when a vessel is operating in that State s area of maritime responsibility An AIS long range communications and reporting mode can satisfy this function and assist administrations in meeting their responsibilities for wide area or offshore monitoring of shipping traffic The objective of maritime administrations is to ensure that its waterways and environment are safe and to provide an economically effective environment for shipping traffic This task is met by enforcing appropriate national and international regulations that govern how ships enter and operate in the territorial waters of a country AIS in conjunction with a VTS Centre or another shore authority can provide an excellent tool to achieve these objectives over the short ranges provided by the underlying VHF transmission system However AIS in combination with a 41 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 long range communication medium also provides an excellent tool to meet the long range ship tracking and monitoring requirements of a Coastal State The reasons that an administration would require to monitor vessel traffic in a wide area or offshore include the safety of navigation assistance with search and rescue SAR resou
14. System AIS Volume 1 Part I Operational Issues Ed 1 3 9 IMO GUIDELINES ANNEX B TYPE OF SHIP TABLE Identifier No Special craft Search and rescue vessels Tugs Port tenders Vessels with anti pollution facilities or equipment Law enforcement vessels 56 Spare for assignments to local vessels Spare for assignments to local vessels Medical transports as defined in the 1949 Geneva Conventions and Additional Protocols Ships according to Resolution No 18 Mob 83 Other ships First digit Second digit First digit Second digit 1 reserved for 0 All ships of this type 0 Fishing future use 2 WIG 1 Carrying DG HS or MP 1 Towing IMO hazard or pollutant category A 3 see right 2 Carrying DG HS or MP 3 Vessel 2 Towing and length of the column IMO hazard or pollutant category B tow exceeds 200 m or breadth exceeds 25 m 4 HSC 3 Carrying DG HS or MP 3 Engaged in dredging or IMO hazard or pollutant category C underwater operations 5 see above 4 Carrying DG HS or MP 4 Engaged in diving IMO hazard or pollutant category D operations 5 reserved for future use 5 Engaged in military operations 6 Passenger 6 reserved for future use 6 Sailing ships 7 Cargo ships 7 reserved for future use 7 Pleasure Craft 8 Tanker s 8 reserved for future use 8 reserved for future use 9
15. The AIS Class A is defined by IMO and has been made a carriage requirement by the latest revision of SOLAS Chapter V AIS provides information that may be used for the navigation of the ship It is therefore essential that the information provided by AIS be reliable The AIS itself has been standardised by the International Telecommunications Union ITU and the International Electrotechnical Commission IEC and is subject to type approval In order to fulfil the reliability requirements of information exchange care should be taken to ensure the AIS is correctly installed This document is a guideline for manufacturers installers yards suppliers and ship surveyors It does not replace documentation supplied by the manufacturer The guidelines take into account the following conventions regulations instructions and guidelines e IMO Resolution MSC 90 73 Annex 7 Adoption of amendments to the international convention for the safety of life at sea as amended e IMO Resolution MSC 74 69 Annex 3 Recommendation on performance standards for AIS e ITU Radio Regulations RR e IEC 60092 series Electrical Installations on Ships e IEC 60533 Electrical and Electronic Installations in Ships Electromagnetic Compatibility 1 SURVEY Surveys on Convention ships should be carried out in accordance with the rules laid down in IMO Res A 746 18 Survey Guidelines under the harmonised system of survey and certification and Protocol
16. The last position of a lost target should be clearly marked by a lost target symbol on the display and the lost target alarm should be given The lost target symbol should disappear if the signal is received again or after the alarm has been acknowledged There should be a clear indication whether the lost target alarm function for AIS targets is enabled or disabled 6 3 8 AIS and radar target association 6 3 8 1 An automatic target association function serves to avoid the presentation of two target symbols for the same physical target If target data from AIS and radar tracking are both available and if the AIS and radar information are considered as one target then as a default condition the activated AIS target symbol and the alphanumeric AIS target data should be automatically selected and displayed The user should have the option to change the default condition to the display of tracked radar targets and should be permitted to select either radar tracking or AIS alphanumeric data 107 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 6 3 8 2 If the AIS and radar information are considered as two distinct targets one activated AIS target and one tracked radar target should be displayed No alarm should be raised 6 3 9 AIS presentation status The AIS presentation status should be indicated as follows Function Cases to be Presented Presentation AIS
17. Transmitter Vector VECT TXRX m 2 Transceiver Very High Frequency VHF UHF Ultrahigh Frequency Very Low Frequency VLF UNSTAB Unstabilised Vessel Aground applies to AIS GRND UTC Universal Time Coordinated Vessel at Anchor applies to ANCH UWE Vessel Underway Using Engine AIS applies to AIS Vessel Constrained by Draught VCD VAR Variation applies to AIS Vessel Engaged in Diving DIVE VCD Vessel Constrained by Draught Operations applies to AIS applies to AIS Vessel Engaged in Dredging or DRG VDR Voyage Data Recorder Underwater Operations applies to AIS Vessel Engaged in Towing TOW VECT Vector Operations applies to AIS 128 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Term Abbreviation Abbreviation Term Vessel Not Under Command applies to AIS NUC VHF Very High Frequency Vessel Restricted in RIM VID Video Manoeuvrability applies to AIS Vessel Traffic Service VTS VLF Very Low Frequency Vessel Underway Using Engine UWE VOY Voyage applies to AIS Video VID VRM Variable Range Marker Voyage VOY VTS Vessel Traffic Service Voyage Data Recorder VDR W West Warning WARNING WARNING Warning Water WAT WAT Water Waypoint WPT WOL Wheel Over Line West W WOT Wheel Over Time Wheel Over Line WOL WPT Waypoint Wheel Over Time WOT X BAND X Band applie
18. a tracked radar target and AIS target having similar parameters e g position course speed and which comply with an association algorithm CCRP The Consistent Common Reference Point is a location on own ship to which all horizontal measurements such as target range bearing relative course relative speed closest point of approach CPA or time to closest point of approach TCPA are referenced typically the conning position of the bridge Dangerous target A target with a predicted CPA and TCPA that violates values preset by the operator The respective target is marked by a dangerous target symbol Display Base The level of information which cannot be removed from the ECDIS display consisting of information which is required at all times in all geographic areas and all circumstances It is not intended to be sufficient for safe navigation 113 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Heading Important Indication Lost target Direction in which the bow of a ship is pointing expressed as an angular displacement from north A marking of an operational status of displayed information which needs special attention e g information with low integrity or invalid information A target representing the last valid position of a target before its data was lost The target is displayed by a lost target symbol Operational Display Area Area of the d
19. and speed vector should be displayed as dashed line with short dashes with spaces approximately twice the line width Optionally time increments may be marked along the vector For a Dangerous Target bold red on color display solid circle with course and speed vector flashing until acknowledged Target in Acquisition State Lost Target Selected Target Target Past Positions Tracked Reference Target Circle segments in the acquired target state For automatic acquisition bold circle segments flashing and red on color display until acknowledged Bold lines across the circle flashing until acknowledged A square indicated by its corners centred around the target symbol Dots equally spaced by time Large R adjacent to designated tracked target Multiple reference targets should be marked as R1 R2 R3 etc 118 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 AIS Target sleeping Activated AIS Target Including Dangerous Target AIS Target True Scale Outline Selected target Lost target Target Past Positions Table 3 AIS Target Symbols An isosceles acute angled triangle should be used The triangle should be oriented by heading or COG if heading missing The reported position should be located at centre and half the height of the triangle The symbol of the sleeping target should be smaller than that
20. are recommended All outdoor installed connectors on the coaxial cables should be waterproof by design to protect against water penetration into the antenna cable Coaxial cables should be installed in separate signal cable channels tubes and at least 10 cm away from power supply cables Crossing of cables should be done at right angles 90 Coaxial cables should not be exposed to sharp bends which may lead to a change in the characteristic impedance of the cable The minimum bend radius should be 5 times the cable s outside diameter 3 2 3 Grounding Coaxial down leads must be used for all antennas and the coaxial screen should be connected to ground at one end 3 3 GNSS ANTENNA INSTALLATION A Class A AIS shall be connected to a GNSS antenna 78 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 3 3 1 Location The GNSS antenna must be installed where it has a clear view of the sky The objective is to see the horizon freely through 360 degrees with a vertical observation of 5 to 90 degrees above the horizon Small diameter obstructions such as masts and booms do not seriously degrade signal reception but such objects should not eclipse more than a few degrees of any given bearing Locate the antenna at least three meters away from and out of the transmitting beam of high power transmitters S Band Radar and or INMARSAT systems This includes the ship s own AIS VHF
21. be aligned to the COG When available the turn or rate of turn ROT indicator and or the path prediction should indicate the manoeuvre of an activated AIS target 6 3 5 6 A consistent common reference point should be used for the alignment of tracked target symbols and AIS target symbols with other information on the same display 6 3 5 7 On large scale low range displays a means to present a true scale outline of an activated AIS target should be provided 6 3 5 8 It should be possible to display the past positions of activated targets 6 3 6 Target data 6 3 6 1 A target selected for the display of its alphanumeric information should be identified by the relevant symbol If more than one target is selected for data display the symbols and the corresponding data should be clearly identified 6 3 6 2 There should be a clear indication to show that the target data is derived from radar or AIS or from a combination of these 6 3 6 3 For each selected tracked radar target the following data should be presented in alphanumeric form Source s of data measured range of target measured bearing of target predicted target range at the closest point of approach CPA predicted time to CPA TCPA true course of target true speed of target Additional target information should be provided on request 6 3 6 4 For each selected AIS target the following data should be presented in alphanumeric form Source of data ship s identification p
22. be quantitatively indicated by displaying absolute or percentage values 5 6 2 When colour coding is used information with low integrity should be qualitatively marked by using yellow and invalid information should be qualitatively marked by using red 5 6 3 In order to show that the screen is being refreshed means should be provided to immediately make the user aware of a presentation failure on an operational display e g picture freeze 102 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 5 7 Alarms and indications 5 7 1 The operational status of information should be indicated as follows Status Visual Indication Audible Signal Alarm not Red flashing Accompanied by an acknowledged audible signal Alarm acknowledged Red Suppression of audible Invalid Information signal Important Indications Yellow Silence or a short Warnings audible signal unless e g low integrity otherwise specified by the Organization Normal state None required Silence optionally green 5 7 2 A list of alarms should be provided based on the sequence of occurrence Additional indication of priority as set by the user should be provided Alarms that have been acknowledged and are no longer relevant should be deleted from the list of alarms but may be retained in an alarm history list 5 7 3 When a single display is used to present information from mu
23. be used by a ship to report the number of persons on board e g on request by a competent authority Attributes addressed acknowledgement required 96 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 APPLICATION 7 Message PSEUDO AIS TARGETS Parameter No of bits Description Message ID 6 Identifier for Message 8 always 8 Repeat Indicator 2 Used by the repeater to indicate how many times a message has been repeated Source ID 30 Name of source station Spare 2 Not used Should be set to zero IAI 16 DAC 001 FI 17 VTS Target 1 Refer to table below occupies 2 slots VTS Target 2 Optional refer to table below occupies 2 slots VTS Target 3 Optional refer to table below occupies 3 slots VTS Target 4 Optional refer to table below occupies 3 slots Total Number of bits 3 slots Each VTS Target should be structured as follows Parameter No Of Bits Description Type of Target 2 Identifier Type Identifier 0 The target identifier should be the MMSI number 1 The target identifier should be the IMO number 2 The target identifier should be the call sign 3 Other default Target ID Target Identifier The Target ID should depend on Type of Target Identifier above When call sign is used it should be inserted using 6 bit ASCII If Target Identifier is unknown this field should be set to zero When MMSI or IMO number is used the leas
24. from vessels at greatest range and re using the slots so gained e Provision of more precise navigational information advice It follows that where a VTS centre is able to receive AIS information from vessels within or adjacent to its area the quality accuracy and reliability of vessel tracking will be improved markedly As a consequence that VTS centre which offers a Navigational Assistance Service or a Traffic Organisation Service will be able to offer advice based on more precise information Moreover the availability of certain real time manoeuvring data within the VTS centre will enable VTS operators to appreciate more rapidly and in greater detail actual vessel movement It should be stressed however that this facility alone will not enable a VTS centre to provide detailed manoeuvring advice or direction to a vessel 4 1 4 3 Electronic transfer of sailing plan information Where AIS is integrated into a VTS system and the appropriate software is available it becomes possible for vessels and the VTS centre to exchange passage information such as intended way points 4 1 4 4 Electronic transfer of safety messages The facility available within AIS for the transmission of short safety related messages makes possible the broadcasting of local navigation warnings and similar safety related messages from a VTS centre or other competent authorities 29 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Ope
25. indication Not available the information is not available in the standard AIS system at this moment It should be possible to gather this type of information from an external source 7 5 3 PLANNING REQUIREMENTS FOR LONG RANGE AIS When contemplating the use of AIS for their long range ship monitoring function administrations are encouraged to take into account the following planning parameters e The long range application of AIS must operate in parallel with the VDL Long range operation will not be continuous The long range system will not be designed for constructing and maintaining a real time traffic image on a large area Position updates will be in the order of 2 4 times per hour maximum Some applications may require an update just twice a day Consequently the long range application presents a low traffic workload to the communication system or the AIS stations and will not interfere with the normal VDL operation e The long range mode will be initiated by a general all ships broadcast message directed to a specific geographically defined area Once a specific ship has been identified and captured in the appropriate VTS database it will 42 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 subsequently be polled by addressed interrogations as defined in the applicable AIS specifications When responding ships will use the standard message formats such as position
26. manually normally by means of the MKD or by means of IEC 61162 sentences SSD and VSD via the presentation interface if such provisions exist 6 1 ENTERED AT INITIAL INSTALLATION OF AIS Information that should be entered at the initial installation of the AIS includes Maritime Mobile Service Identity MMSI number IMO vessel number Radio call sign Name of ship Type of ship Dimension reference for position of the electronic position fixing device EPFD antenna see paragraph on Reference point of position below Access to MMSI IMO number and other AIS controls like power and channel settings will be controlled e g by password The Call Sign Name of Ship and Type of Ship should be input to the AIS either manually using the MKD or by means of IEC 61162 sentences SSD and VSD via 81 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 the Pl Type of Ship information should be in accordance with the table given in Annex B Table 18 from Rec ITU R M 1371 1 For example a cargo ship not carrying dangerous goods harmful substances or marine pollutants would use identifier 70 Pleasure craft would use identifier 37 Note that those ships whose type identifier begins with a 3 should use the fourth column of the table Depending on the vessel cargo and or the navigational conditions this information may be voyage related and
27. not intended to replace standard services such as GMDSS and SAR 89 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Use of AIS Binary Messages 8 The use of Binary Messages is optional Binary Messages may be generated manually or automatically Pre defined forms for each binary message type may be used to easily generate the message 9 Since the use of binary messages places an additional load on the VHF data link care must be taken not to impair the main functions of AIS for ship identification and tracking In this regard longer binary messages may adversely impact the VHF data link and should be avoided 90 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 APPENDIX 2 APPLICATION 1 Message METEOROLOGICAL AND HYDROLOGICAL DATA Parameter No of bits Description MessageID __ _ ideitfier for Message 8 always 8 Repeat Indicator 2 Used by the repeater to indicate how many times a message has been repeated MMSI number of source station Spare 2 Not used Should be set to zero SS 16 DAC 001 Fl 11 i Measuring position 0 to 90 degrees 1 1000th minute Se Measuring position 0 to 180 degrees 1 1000th minute Date and time Time of transmission Day hour minute ddhhmm in UTC Average wind speed Average of wind speed values for the last 10 minutes 0 120 kts 1 kt W
28. on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Purpose This message should be used to inform vessels about tidal windows which allow a vessel the safe passage of a fairway The message includes predictions of current speed and current direction In this example three points of tidal information are given Attributes of message addressed shore station transmitting acknowledgement required APPLICATION 5 Message EXTENDED SHIP STATIC AND VOYAGE RELATED DATA Message ID 6 Identifier for Message 8 always 8 Repeat Indicator 2 Used by the repeater to indicate how many times a Source ID 30 Name of source station Not used Should be set to zero DAC 001 FI 15 in 1 10 m 2047 height over keel 204 7 m or greater 0 not available default Not used Should be set to zero This message uses one slot Purpose This message should be used by a ship to report the height over keel Attributes broadcast ship transmitting no acknowledgement APPLICATION 6 Message NUMBER OF PERSONS ON BOARD Parameter No ofbits Deserpgeon O Message ID 6 Repeat Indicator 2 Used by the repeater to indicate how many times a message has been repeated Source ID 30 Spare 2 IAI 16 Number of Persons 13 Current number of persons on board including crew members 0 8191 default 0 not available 8191 8191 or more Spare 3 Total Number of Bits 7 Purpose This message should
29. on Safety of Navigation NAV was requested to prepare a Performance Standard for such a system and this was completed during its forty third session in 1997 It was entitled Recommendation on Performance Standards for a Ship borne AIS and was subsequently approved by the IMO Maritime Safety Committee MSC at its sixty ninth session May 1998 under resolution MSC 74 69 Annex 3 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 The Performance Standard specifies the requirements for AIS including the functionality and capability of the system For example the following functional requirements should be satisfied 1 in aship to ship mode for collision avoidance 2 as a means for littoral States to obtain information about a ship and its cargo and 3 as a VTS tool i e ship to shore traffic management Further AIS should be capable of providing to ships and to competent authorities information from the ship automatically and with the required accuracy and frequency to facilitate accurate tracking Transmission of the data should be with the minimum involvement of ship s personnel and with a high level of availability Once NAV agreed on the Performance Standard they requested the International Telecommunications Union ITU to prepare a Recommendation on the Technical Characteristics for the AIS 1 3 2 INTERNATIONAL TELECOMMUNICATIONS UNION ITU The ITU is a speciali
30. positional errors 9 4 USE OF AIS ASHORE SOLAS Chapter V notes A S shall exchange data with shore based facilities This generic statement has the potential to encourage the growth of shoreside AIS applications that extend well beyond originally intended ship ship situational awareness and safety of navigation functions with possible impact on VDL capabilities Guidelines will continue to evolve and define AIS priorities that focus on the exchange of information about vessel traffic safety port management AtoN monitoring and the emerging issues of maritime security The future commercial exploitation of AIS will require these guidelines to ensure that the basic functions of AIS maintain priority over any other use of the technology 71 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 9 5 LIMITATIONS ASSOCIATED WITH THE USE OF AIS Although AIS has the potential to greatly enhance VTS operations the system does have limitations or potential drawbacks For example 9 6 VTS operators may become overly dependent on AIS and therefore may treat the system as a sole or primary means for vessel identification as a result they may fail to identify contacts because all vessels may not be equipped with AIS transponders AIS is subject to the same vagaries and vulnerabilities of VHF FM propagation When a AIS unit reaches its saturation point maximum number of t
31. precise tracking associated with AIS has been shown to prevent the incidence of track swap e Real Time Manoeuvring Data Radar based VTS systems will typically provide details of a vessel s course and speed over the ground Of necessity this information is historical in that it is calculated from the track made good by a vessel In contrast AIS will provide all recipients with certain elements of real time manoeuvring data such as ships heading and rate of turn These are derived directly from the vessel navigation systems and are included automatically in the Dynamic Message broadcast by the AIS e Weather Effects On Tracking Performance Navigational radar s performance is often adversely affected by precipitation as a function of the radio frequency on which it operates In heavy rain or snow effective radar tracking is sometimes unachievable even with the use of modern suppression techniques VHF radio transmissions on the other hand are not so attenuated As a consequence a VTS centre is much more likely to maintain an accurate traffic image in adverse weather where that tracking is based on AIS data VHF radio transmissions can be affected by atmospheric ducting In these conditions VHF reception ranges can be greatly extended Where such an enhanced reception range brings with it the detection of greatly increased AIS messages the system will automatically overcome the risk of overloading by ignoring signals originating
32. provides for channel switching channel management using DSC and frequency agile AIS stations 7 4 1 RADIO FREQUENCY ALLOCATIONS In response to a request from the IMO seeking global frequencies for AIS the 1997 ITU World Radio Conference WRC 97 designated two worldwide channels from the VHF maritime mobile band for this purpose The channels are AIS 1 87B 161 975 MHz and AIS 2 88B 162 025 MHz Two channels were selected to increase capacity and mitigate RF interference Again at the request of IMO the ITU R developed and approved a technical standard for AIS Recommendation ITU R M 1371 1 The WRC 97 also provided for administrations to designate regional frequency channels for AIS where channels 87B and 88B were unavailable and if necessary 40 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 to derive new Appendix S18 channels using Recommendation ITU R M 1084 2 simplex use of duplex channels and or 12 5 kHz narrowband channels WRC 97 further stated that these regions should be as large as possible for navigation safety purposes This requirement arose because some maritime nations experienced problems in releasing the WRC 97 designated channels for AIS and therefore needed separate regional frequencies for use in their areas However because of the channel management and automatic switching techniques being employed this will be largely transpare
33. reference point CCRP 6 2 Presentation of charted information 6 2 1 The presentation of charted information that is issued by or on the authority of a government authorised hydrographic office or other relevant government institution should comply with the relevant IHO standards 6 2 2 The presentation of proprietary charted information should comply with relevant IHO standards as far as practical There should be a clear indication when the presentation is not in accordance with IHO standards 6 2 3 The presentation of user added charted information should comply with the relevant IHO standards as far as practical 6 2 4 If chart data derived from different scales appear on the display the scale boundary should be clearly indicated Presentation of radar information 6 2 5 Radar images should be displayed by using a basic colour that provides optimum contrast Radar echoes should be clearly visible when presented on top of a chart background The relative strength of echoes may be differentiated by tones of the same basic colour The basic colour may be different for operation under different ambient light conditions 6 2 6 Target trails should be distinguishable from targets and clearly visible under all ambient light conditions 6 3 Presentation of target information 6 3 1 General 6 3 1 1 Target information may be provided by radar target tracking and or by reported target information from the Automatic Identification Sy
34. targets and AIS targets 7 3 ECDIS display 7 3 1 General 7 3 1 1 The ENC and all updates to it should be displayed without any degradation of their information content 7 3 1 2 Chart information should not be substantially degraded masked or obscured by other presented information 7 3 1 3 It should be possible to temporarily suppress all supplemental information from the display retaining only chart related information contained in the Display Base 7 3 1 4 It should be possible to add or remove information from the ECDIS display It should not be possible to remove information contained in the Display Base from the ECDIS display 7 3 1 5 It should be possible to select a safety contour from the depth contours provided by the ENC The safety contour should be emphasized over other contours on the display 7 3 1 6 It should be possible to select a safety depth Soundings equal to or less than the safety depth should be emphasized whenever spot soundings are selected for display 110 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 7 3 1 7 An indication should be provided if the information is displayed at a larger scale than that contained in the ENC or if own ship s position is covered by an ENC at a larger scale than that provided by the display 7 3 1 8 Overscaled areas shown on the ECDIS display should be identified 7 3 2 Display of radar information on ECDI
35. the Presentation of Navigation related Symbols 1 Purpose The purpose of these annexed guidelines is to provide guidance on the appropriate use of navigation related symbols to achieve a harmonized and consistent presentation 2 Scope The use of these guidelines will insure that the symbols used for the display of navigation related information on all shipborne navigational systems and equipment are presented in a consistent and uniform manner 3 Application These guidelines apply to all shipborne navigational systems and equipment The symbols listed in the Appendix should be used for the display of navigation related information to promote consistency in the symbol presentation on navigational equipment The symbols listed in the Appendix should replace symbols which are currently contained in existing performance standards Where a standard symbol is not available another symbol may be used but this symbol should not conflict with the symbols listed in the Appendix 116 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 APPENDIX Navigation related Symbols Table 1 Own Ship Symbols Double circle located at own ship s reference position Use of this symbol is optional if own ship position is shown by the combination of Heading Line and Beam Line True scale outline located relative to own ship s Own Ship True reference position oriented along own ship
36. turn indication Dots equally spaced by time 119 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Table 4 Other Symbols AIS Based AtoN Diamond with crosshair centred at reported position Real Position of Shown with chart symbol Chart symbol not required Charted Object for radar AIS Based AtoN Diamond with crosshair centred at reported position Virtual position Monitored Route Dashed bold line waypoints WPT as circles Planned or O O Alternate Route Hog Dotted line WPT as circles Trial Manoeuvre Large T on screen Crosshair two alternatives one with open centre Simulation Mode Large S on screen l Cursor E Circle Variable Range Se a Markers VRM Additional VRM should be distinguishable from the primary VRM Solid circles Dashed line Additional EBL should be distinguishable from the primary EBL Electronic Bearing Lines EBL 120 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Topic Symbol Description Acquisition Solid line boundary for an area Activtion Area Rectangle with diagonal line clarified by added text e g Brent Mark MOB for man overboard cases 121 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 ANNEX 2 Guidelines for the Presentation of N
37. voyage related can be provided through the use of international function identifier applications 8 2 5 SHIP DIMENSIONS AND REFERENCE FOR POSITION Distancein meters _ _ 0 511 511 511m or greater a B 0 511 511 511m or greater H 0 63 63 63 m or greater D 0 63 63 63 m or greater Reference point of reported position not available but dimensions of ship are available A C 0 and B 0 and D 0 Neither reference point of reported position nor c dimensions of ship available A B C D 0 default Figure 3 Vessel Dimensions and Reference for Position 51 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 8 2 6 BINARY MESSAGES Binary messages can be addressed to a particular mobile or shore station or broadcast to all stations in the area They are also used to acknowledge Short Safety Related Messages where necessary Addressed Binary Messages are variable in length depending on the size of the binary data to be sent and can be between 1 and 5 message slots long In effect this means that up to 160 6 bit ASCII characters can be included in the text of each message The IMO Sub Committee on Safety of Navigation at its 49 session selected seven binary message applications to be used as a trial set of messages for four years without changes These are described at Annex D 8 2 7 SHORT SAFETY RELATED MESSAGES Short Safety Related Me
38. 1 2 3 4 5 T 10 11 12 13 14 transmitted Number of slots used for this 2 2 2 13 13 13 3 4 message 8 4 4 IFM 18 Advice of VTS Waypoints Route Plan IFM 18 is used by a VTS centre to advise ships of the waypoints and or route plans used in that particular VTS area If the VTS uses this IFM 18 message within an Addressed Binary Message then the information will only be available to the addressed recipient that is one ship If the VTS uses IFM 18 within a Broadcast Binary Message then the information will be available to all other ships in VHF reception range of the transmitting VTS centre When transmitting this information the VTS centre can include up to 12 Advised Waypoints AWP if available and or a route specified by a textual description If waypoints are transmitted then a recommended turning radius can be included for each waypoint 62 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Parameter Description Number of Advised Waypoints 1 12 0 no waypoint default 13 15 not used WP i Lon Longitude of Advised Waypoint i in 1 10 000 min 180 degrees East positive West negative Field required if 1 lt i lt AWP i 1 2 3 12 Field not required if AWP 0 WP i Lat Latitude of Advised Waypoint i in 1 10 000 min 90 degrees North positive South negative Field required if 1 lt i lt AWP i 1 2 3 12
39. 20 Data Link Management reserve slots for Base Stations AS 21 Aids to Navigation Report position and status report AU AS IN 22 Channel Management AS Table 7 Primary Message Types in groupings and Operating Modes 8 2 1 POSITION REPORT MESSAGES 1 2 OR 3 The Position Report message which contains primarily dynamic data and would normally constitute the priority message is shown below at Table 8 Repeat 0 3 Used by the repeater to indicate how many times the message has been repeated default 0 3 do not repeat again Navigational 0 underway using engine 1 at anchor 2 not under command 3 restricted manoeuvrability 4 constrained by draught 5 moored 6 aground 7 engaged in fishing 8 underway sailing 9 reserved for HSC category 10 reserved for WIG category 15 Default Rate of Turn 708 degrees min 128 indicates not available which is the default see Table 23 SOG Ee Speed Over Ground in 1 10 knot steps 0 102 2 knots 1023 not available 1022 102 2 knots or higher Position 1 High lt 10m Differential mode of e g DGNSS receiver Accuracy 0 Low gt 10m Autonomous mode of e g GNSS receiver or other electronic position fixing device default 0 Longitude in 1 10 000 minute 180 degrees East positive West negative 181 degrees not available default Latitude in 1 10 000 minute 90 degrees North positive South negative 91 degrees not avail
40. 4 Activation of AIS targets 6 3 4 1 If zones for the automatic activation of AIS targets are provided they should be the same as for automatic radar target acquisition if available Any user defined zones e g acquisition activation zones in use should be presented in graphical form 6 3 4 2 In addition sleeping AIS targets should be automatically activated when meeting user defined parameters e g target range CPA TCPA or AIS target class A B 6 3 5 Graphical presentation 6 3 5 1 Targets should be presented with their relevant symbols according to SN Circ 6 3 5 2 AIS information should be graphically presented either as sleeping or activated targets 105 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 6 3 5 3 The course and speed of a tracked radar target or reported AIS target should be indicated by a vector that clearly shows the predicted motion The vector time length should be consistent for presentation of any target regardless of its source 6 3 5 4 The presentation of vector symbols should be consistent irrespective of the source of information The presentation mode should be clearly and permanently indicated including for example True Relative vector vector time and vector stabilisation 6 3 5 5 The orientation of the AIS target symbol should indicate its heading If the heading information is not received the orientation of the AIS symbol should
41. A should point to true north e For floating aids larger than 2 m 2 m the dimensions of the Aids to Navigation should always be given approximated to a square i e the dimensions should always be as follows A B C D Aid to Navigation is not transmitted The reference point for reported position is in the centre of the square e A B C D 1 should indicate objects fixed or floating smaller than or equal to 2m 2m The reference point for reported position is in the centre of the square 2 When transmitting virtual synthetic Aids to Navigation information i e the virtual synthetic Aids to Navigation Target Flag is set to one 1 the dimensions should be set to A B C D 0 default This should also be the case when transmitting reference point information For more information please refer to IALA Recommendation A 126 on AIS for Aids to Navigation 57 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 8 4 INTERNATIONAL APPLICATION IDENTIFIER IAI The IMO Sub Committee on Safety of Navigation at its 49 session selected seven binary message applications to be used as a trial set of messages for four years without changes These are described at Annex D It should be noted that four additional system related messages identified in Recommendation ITU R M 1371 1 are needed for the operation of the system In addition to these seven messages and four system related messages
42. Figure 8 Comparison of Radar ARPA and AIS The attached screen shot clearly shows the difference between the radar ARPA and the AIS information for collision avoidance While the ARPA shows a crossing situation the AIS clearly indicates the red to red situation In summary AIS is a valuable navigational aid one of several on the bridge of a ship It can assist in the early appraisal and subsequent resolution of a close quarters situation or of a risk of collision Initially detection by AIS alone should be considered in the same way as detection by radar alone with particular caution being exercised until the AIS information has been verified by other means 68 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Note Today manufacturers of radars ECDIS ECS and VTS systems often include as a feature the possibility to integrate information from different sensors for presentation This can be achieved by simply overlaying the information provided by each sensor e g one AIS target and one radar target Alternatively radar and AIS information can be displayed as one integrated target The latter is generally referred to as target correlation and fusion Systems that undertake correlation and fusion of targets provide the VTS operator or OOW with more accurate target information Nevertheless it should be noted that e the algorithms for correlation and fusion can var
43. IEC IFI IFM IHO IMO INS INMARSAT ITU LR MID MKD MMSI MSC MSG NAV NUC ANNEX 3 ABBREVIATIONS Ship to Ship and Ship to Shore Automatic Identification System Aid to Navigation Automatic Radar Plotting Aid Automatic Tracking Aid Australian Ship Reporting System Basic AIS Service Built in Integrity Test Bottom Track Course over Ground International Regulations for the Prevention of Collisions at Sea 1972 Closest Point of Approach Designated Area Code Direction Finding Differential GNSS Digital Selective Calling Exclusive Economic Zone Electronic Chart Display and Information System Electronic Charting System Electronic Plotting Aid Electronic Position Fixing Device Estimated Time of Arrival Fixed Access Time Division Multiple Access Frequency Modulation Gaussian Minimum Shift Keying Heading Horizontal dilution of precision Global Global Positioning System Global Navigational Satellite System International application identifier International Association of Marine Aids to Navigation and Lighthouse Incremental Time Division Multiple Access Integrated Bridge System International Electrotechnical Commission International Function Identifier International Function Message International Hydrographic Organisation International Maritime Organisation Integrated Navigation System International Maritime Satellite System International Telecommunication Union Long Range Maritime Identifi
44. INTEGRITY TEST FUNCTION The AIS requires that an alarm output relay be connected to an audible alarm device or the ship s alarm system if available Alternatively the BIIT alarm system may use the alarm messages output on the PI provided its alarm system is AIS compatible 5 DYNAMIC DATA INPUT 5 1 EXTERNAL SENSORS The AIS has interfaces configurable as IEC 61162 1 or 61162 2 for position heading and rate of turn ROT sensors In general sensors installed in compliance with other carriage requirements of SOLAS Chapter V should be connected to the AIS The sensor information transmitted by AIS should be the same information being used for navigation of the ship The interfaces should be configured as given in annex 3 Interfacing problems might occur if the existing sensors found on board do not have serial IEC 61162 outputs 5 2 POSITION COG AND SOG GNSS position sensors normally have IEC 61162 outputs for position COG and SOG suitable for directly interfacing the AIS However it is important to note that e The Geodetic Datum of the position data transmitted by the sensor is WGS84 and that an IEC 61162 DTM sentence is configured 5 Installation of the AIS does NOT establish a need to install additional sensors above carriage requirements 80 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 e AIS is able to process two reference points for its a
45. International Association of Marine Aids to Navigation and Lighthouse Authorities AISM Association of Internationale de Signalisation Maritime IA LA IALA Guideline No 1028 On The Automatic Identification System AIS Volume 1 Part Operational Issues Edition 1 3 December 2004 Edition 1 issued December 2002 20ter rue Schnapper 78100 Saint Germain en Laye France Telephone 33 1 34 51 70 0 Telefax 33 1 34 51 82 05 E mail iala aism wanadoo fr Internet http iala aism org IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 TABLE OF CONTENTS FOREWORD nette ee ie e Eege de 6 E PREFACE eet E a E a ated iadaa esawveentechanasd teveusee canta 7 1 1 IHN TRIER LEET 7 1 2 PURPOSE aa Rian Sa an ea ea ices 7 1 3 BACKGROUND EE 8 1 3 1 INTERNATIONAL MARITIME ORGANISATION IMO PERFORMANCE STANDARD 8 1 3 2 INTERNATIONAL TELECOMMUNICATIONS UNION ITU 9 1 3 3 International Electrotechnical Commission IEC cccccccccccceeeeceee ness 10 1 3 4 IMO Carriage Reagiiremtent 10 1 3 5 Non SOLAS Convention Sbkinpe 10 1 3 6 Administration Competent Authority shore installations 10 1 3 7 AIS EE Il 1 4 RECOMMENDATIONS STANDARDS AND GUIDELINES ccccccceeseeeseeesseenseees 12 PART 1 OPERATIONAL ASPECTS OF AIS 13 2 OVERVIEW OPERATIONAL amp FUNCTIONAL REQUIREMENTS 14 2 1 GENERAL DESCRIPTION AND DERINTTION 14 2 2 PURPOSE OF AJS age
46. L CAL Calibrate Carried e g carried EBL origin C CCRP Consistent Common Reference Point Centre CENT CCRS Consistent Common Reference System Change CHG CENT Centre Circular Polarised CP CHG Change Clear CLR CLR Clear Closest Point of Approach CPA CNCL Cancel Consistent Common Reference CCRP COG Course Over the Ground Point Consistent Common Reference CCRS CONT Contrast System Contrast CONT CORR Correction Correction CORR CP Circular Polarised Course CRS CPA Closest Point of Approach Course Over the Ground COG CRS Course Course Through the Water CTW CTS Course To Steer Course To Steer CTS CTW Course Through the Water Course Up C UP ee CURS Cursor Cross Track Distance XTD D Dropped e g dropped EBL origin Cursor CURS DATE Date 123 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Term Abbreviation Abbreviation Term Dangerous Goods DG DAY NT Day Night Date DATE DEC December Day Night DAY NT DECR Decrease Dead Reckoning Dead DR DEL Delete Reckoned Position December DEC DELAY Delay Decrease DECR DEP Departure Delay DELAY DEST Destination Delete DEL DEV Deviation Departure DEP DG Dangerous Goods Depth DPTH DGAL Differential Galilleo Destination DEST DGLONASS Differential GLONASS Deviation DEV Differential GNSS DGNSS See note 2 Differential Galilleo DGAL See note
47. ON OFF AIS processing AIS processing Alphanumeric switched ON switched ON or graphical graphical graphical presentation presentation switched OFF switched ON Filtering of Filter status Filter status Alphanumeric sleeping AIS or graphical targets 6 4 3 Activation of Activation Graphical Targets 6 4 4 criteria CPA TCPA Alarm Function ON OFF Function Alphanumeric 6 4 7 CPA TCPA Criteria ON OFF and graphical Sleeping targets CPA TCPA included Criteria Sleeping targets included Lost Target Alarm Function ON OFF Function Alphanumeric 6 4 7 Lost target Filter Criteria ON OFF Lost target Filter and graphical Criteria Target Association Function ON OFF Function Alphanumeric 6 4 8 Association Criteria ON OFF Default Target Association Priority Criteria Default Target Priority 6 4 10 Trial manoeuvre A trial manoeuvre simulation should be clearly identified by the relevant symbol positioned astern of own ship within the operational display area of the screen 7 OPERATIONAL DISPLAYS 108 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 7 1 General 7 1 1 If the display equipment is capable of supporting the presentation of multiple functions then there should be a clear indication of the primary function supported by the presentation e g Radar ECDIS It should be possible to select the Radar presentation see 7 2
48. RPM RNG Range Roll On Roll Off Vessel RoRo RoRo Roll On Roll Off Vessel applies to AIS applies to AIS Root Mean Square RMS ROT Rate Of Turn Route ROUTE ROUTE Route Safety Contour SF CNT RPM Revolutions per Minute Sailing Vessel applies to AIS SAIL RR Range Rings Satellite SAT RTK Real time Kinemetic S Band applies to Radar S BAND RX Ceme Receiver Scan to Scan SC SC S South Search And Rescue SART SAIL Sailing Vessel applies to AIS Transponder Search And Rescue Vessel SARV SART Search And Rescue applies to AIS Transponder Select SEL SARV Search And Rescue Vessel applies to AIS September SEP SAT Satellite Sequence SEQ S BAND S Band applies to Radar Set i e set and drift or setting SET SC SC Scan to Scan a value Ship s Time TIME SDME Speed and Distance Measuring Equipment Short Pulse SP SEA Anti Clutter Sea Signal to Noise Ratio SNR SEL Select Simulation SIM Beene 4 SEP September Slave SLAVE SEQ Sequence South S SET Set i e set and drift or setting a value Speed SPD SF CNT Safety Contour 127 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Term Abbreviation Abbreviation Term Speed and Distance Measuring SDME sim Seen 47 Simulation Equipment Speed Over the Ground SOG
49. S 7 3 2 1 Radar and target information may be displayed on ECDIS but should not substantially degrade mask or obscure the chart information As far as practical radar and target information should be presented in accordance with the radar performance standard and with these presentation standards 7 3 2 2 Radar and target information should be clearly distinguishable from the chart information It should be possible to remove this information by a single operator action 7 3 3 Display of additional information on ECDIS 7 3 3 1 Information from additional sources may be displayed on ECDIS but should not substantially degrade mask or obscure the chart information 7 3 3 2 Additional information should be clearly distinguishable from the chart information It should be possible to remove this information by a single operator action User selected task orientated presentation 7 3 4 The user may configure a presentation for a specific task at hand The presentation may include radar and or chart information in combination with other navigation or ship related data When not fully compliant with the Radar or ECDIS performance standards such a presentation should be identified as an auxiliary presentation 7 3 5 As far as practical the presentation of any radar and or ECDIS related functions should be compliant with the requirements of the relevant performance standards and of these presentation standards with the exception of size r
50. S Attached at Annex 1 are installation guidelines approved by IMO NAV 48 July 2002 and issued as SN Circ 227 These guidelines take into account the technical characteristics of a ship borne AIS using time division multiple access in the VHF maritime mobile band ITU R M 1371 1 and the Class A ship borne equipment of the AIS IEC 61993 2 neither of which address installation aspects Installers and shipowners are reminded to ensure the quality and robustness of installation of the AIS unit on board as this directly impacts on the performance of the unit and the safety of navigation As can be expected with any new device being mandated for carriage on board within a tight schedule a large number of units are being installed in a poor and haphazard manner Particular care must be paid to issues such as siting of antennas cabling input of static data interfacing with the master gyro compass and EPFD and the locations of the AIS display and the pilot plug Shipowners should consider incorporating functionality that permits the verification of AIS output data on a regular basis 12 CAUTION WHEN USING AIS The characteristics and capability of Automatic Identification System AIS make it an outstanding new tool capable of enhancing the safety of navigation and efficiency of shipping traffic management However mariners and other users need to be aware of the following e AIS is subject to the vagaries and limitations of VHF FM propaga
51. SLAVE Slave Speed Through the Water STW SNR Signal to Noise Ratio Stabilized STAB SOG Speed Over the Ground Standby STBY SP Short Pulse Starboard Starboard Side STBD SPD Speed Station STN STAB Stabilized Symbol s SYM STBD Starboard Starboard Side Synchronisation SYNC STBY Standby Target TGT STN Station Target Tracking TT STW Speed Through the Water Test TEST SYM Symbol s Time TIME SYNC Synchronisation Time Difference TD T True Time Dilution Of Precision TDOP TCPA Time to CPA Time Of Arrival TOA TCS Track Control System Time Of Departure TOD TD Time Difference Time to CPA TCPA TDOP Time Dilution Of Precision Time To Go TTG TEST Test Time to Wheel Over Line TWOL TGT Target Track TRK THD Transmitting Heading Device Track Control System TCS TIME Ship s Time Track Made Good TMG Seem TIME Time Trail s TRAIL TM True Motion Transceiver TXRX Sene TMG Track Made Good Transferred Line Of Position TPL TOA Time Of Arrival Transmitter TX Cea TOD Time Of Departure Transmitting Heading Device THD TOW Vessel Engaged in Towing Operations applies to AIS Trial TRIAL SSES TPL Transferred Line Of Position Trigger Pulse TRIG TRAIL Trail s True T TRIALS Trial True Motion TM TRIG Trigger Pulse Tune TUNE TRK Track Ultrahigh Frequency UHF TT Target Tracking Universal Time Coordinated UTC TTG Time To Go Unstabilised UNSTAB TUNE Tune Variable Range Marker VRM TWOL Time to Wheel Over Line Variation VAR TX ee
52. TRAINING 0 ccccccceeeceecceeeceeeceteseetceeeeeesteeeeeeenees 32 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 4 1 7 SHORT TERM ACTION BY VTS AUTHORITIES 0000000000aaaaaaaaan 32 4 2 OPERATION OF AN AIS IN A SRS AREA OR TSS 32 FUNCTIONAL REQUIREMENTS OF AIS 34 5 1 INTEGRATION AND DISPLAY OF AIS INFORMATION 34 5 1 1 DIS EE 34 5 2 AIS INSTALLATION AND INTEOGRATION 35 INTEGRATION amp DISPLAY OF AIS INFORMATION ASHORE 35 AIS INFORMATION TRANSFER amp COMMUNICATION MODES 36 Tal DATA TRANSFER WITH AIS 36 7 11 VHF DATA LINK VDL CAPBACHN 37 7 2 REQUIRED UPDATE RATES EEN 38 7 3 SHIP BORNE INSTALLATIONS ssnneesseensssoeeesssessssseenssseerssseessssresssseessssseee gt 39 7 4 COMMUNICATIONS REOUIREMENTS serioses rosierisrisiasrs rene 40 7 4 1 RADIO FREQUENCY ALLOCATIONS 40 7 4 2 CHANNEL MANAGEMENT 41 7 5 TONG RANGE M ODE r entere arite ita E E EE E AE A 41 7 5 1 OVERVIEW cirie tr rs A E OEE V NEETA E Aa i 41 7 3 2 LONG RANGE REPORTING FORMAT 42 7 5 3 PLANNING REQUIREMENTS FOR LONG RANGE AI8 42 ATS MESSAGES EE 44 8 1 MESSAGE TYPES AND FORMATS 0ccccsecceeseesseeccuececeeesceseeceaaceeaeeeeeeeenees 44 8 2 STANDARD MESSAGE FORMATS ccssccceeseseeceeeeeecceceeusesceeeueseeeeneseeeeeess 45 8 2 1 POSITION REPORT MESSAGES 1 2 OR 3 46 8 2 2 BASE STATION REPORT ccccccccccecceeeceeeceee cette eee eeeteeeeese
53. Technical Standard This specifies the technical characteristics of the system and stipulates how AIS is to meet the operational requirements of the performance standard It provides the technical criteria for AIS for example Transceiver characteristics Modulation Data format messages and packaging Time division multiple access TDMA Channel management At the initiative of IALA a draft of the Technical Characteristics was prepared and submitted to a meeting of the ITU Radio Communication ITU R Study Group Working Party 8B in March 1998 A revision to the ITU Recommendation was prepared and formally approved by the Union in November 1998 being issued as ITU R Recommendation M 1371 1 Technical Characteristics for a Ship borne Automatic Identification System Using Time Division Multiple Access in The Maritime Mobile Band 2 3 4 VHF Channel Allocation An IMO request for two maritime VHF channels for AIS was submitted to the ITU World Radio Communication Conference WRC in Geneva during October November 1997 Two channels were designated and a footnote added to Appendix S18 of the ITU Radio Regulations entitled Table of Transmitting Frequencies in the VHF Maritime Mobile Band as follows These channels AIS 1 and AIS 2 will be used for an automatic ship identification and surveillance system capable of providing worldwide operation on high seas unless other frequencies are designated on a regional basis for this pur
54. Time division multiple access TDMA Channel management NOTE IALA has created a technical clarification document entitled Technical Clarifications of Recommendation ITU R M 1371 1 This is a living document maintained by IALA intended to clarify issues relating to ITU R M 1371 1 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 1 3 3 International Electrotechnical Commission IEC Founded in 1906 the International Electrotechnical Commission IEC is the world organisation that prepares and publishes international test standards and required test results for electrical electronic and related equipment IEC also prepares type approval test specifications for mandatory ships equipment The IEC has its headquarters in Geneva Following the adoption of the IMO Performance Standard and the ITU Technical Characteristics for the AIS there remained one more standard to prepare and adopt This was the IEC Standard entitled IEC 61993 Part 2 Ship borne Automatic Identification System AIS Operational and Performance Requirements Methods of Testing and Required Test Results This Standard is to be used by Administrations to type approve AIS equipment fitted on ships to which SOLAS Chapter V applies The IEC Technical Committee 80 Working Group 8 IEC TC80 WG8 carried out the work and the Standard was adopted in 2001 It includes for example the following Test sp
55. Tracks Routes Areas and Limits for example Areas To Be Avoided and Traffic Separation Schemes e Message 6 Binary addressed message For example local use for AtoN monitoring data Parameter Description Message ID Identifier for this message 21 Repeat Indicator Used by the repeater to indicate how many times a message has been repeated 0 3 default 0 3 do not repeat any more ID MMSI number Type of Aid to 0 not available default refer to appropriate definition set up by IALA Navigation Name of Aid to Maximum 20 characters 6 bit ASCII Navigation not available default The name of the Aid to Navigation may be extended by the parameter Name of Aid to Navigation Extension below Position accuracy 1 high lt 10 m Differential Mode of e g DGNSS receiver 0 low gt 10 m Autonomous Mode of e g GNSS receiver or of other Electronic Position Fixing Device Default 0 Longitude Longitude in 1 10 000 min of position of Aid to Navigation 180 degrees East positive West negative 181 degrees 6791ACO hex not available default Latitude Latitude in 1 10 000 min of Aids to Navigation 90 degrees North positive South negative 91 degrees 3412140 hex not available default Dimension Reference Reference point for reported position also indicates the dimension of for Position Aid to Navigation in metres if relevant 1 Type of Electronic 0 U
56. able default COG Course Over Ground in 1 10 degree 0 3599 3600 not available default True Degrees 0 359 511 indicates not available default Heading 46 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Parameter Description Time stamp UTC second when the report was generated 0 59 or 60 if time stamp is not available which should also be the default or 61 if the electronic position fixing system is in manual input mode or 62 if the positioning systems is in estimated dead reckoning mode or 63 if the positioning system is inoperative Reserved Reserved for definition by a competent regional authority Shall be set to 0 if for regional not used for regional application applications RAIM Flag Receiver Autonomous Integrity Monitoring flag of electronic position fixing device 0 RAIM not in use default 1 RAIM in use Table 8 Position Report message 47 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 8 2 2 BASE STATION REPORT This message is used for reporting UTC time and date and at the same time position A Base Station uses Message 4 in its periodical transmissions while a Mobile Station outputs Message 11 only in response to interrogation by Message 10 Parameter Description Message ID Identifier for this message 4 11 4 UTC and posi
57. aid transmit its identity operational status and other information such as real time wave height tidal stream and local weather to ships nearby or to the service provider Buoys that can transmit an accurate position perhaps based on DGNSS can be monitored to ensure that they are on station Performance monitoring remotely changing operating parameters and activating back up equipment are also made possible by the use of AIS Applications of AIS as an AtoN include the marking of dangerous wrecks and offshore structures In the case of areas containing multiple structures such as wind farms only the extremities would be marked using AIS 4 1 5 2 USE OF AIS FOR METEOROLOGICAL AND HYDROLOGICAL PURPOSES Another application whose wide use is expected is the transmission of meteorological and or hydrological data Where such an application is intended for international use the message format will be registered by IALA prior to being made available to system manufacturers This will facilitate the correct presentation of the information on systems from different manufacturers Options for implementing this application include e Connecting a sensor directly to a local AIS unit which then broadcasts the relevant information 30 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 e Several sensors can be connected to a shore station network via a data communication system Informat
58. ailable 4094 4094 metres or higher SOG Speed over ground in knot steps 0 1022 knots 1023 not available 1022 1022 knots or higher Position accuracy 1 high lt 10 m Differential Mode of e g DGNSS receiver 0 low gt 10 m Autonomous Mode of e g GNSS receiver or of other Electronic Position Fixing Device default 0 Longitude Longitude in 1 10 000 min 180 degrees East positive West negative 181 degrees 6791ACO hex not available default Latitude Latitude in 1 10 000 min 90 degrees North positive South negative 91 degrees 3412140 hex not available default COG Course over ground in 1 10 3599 3600 E10 hex not available default 3601 4095 should not be used Time stamp UTC second when the report was generated 0 59 or 60 if time stamp is not available default or 62 if Electronic Position Fixing System operates in estimated dead reckoning mode or 61 if positioning system is in manual input mode or 63 if the positioning system is inoperative Reserved for Reserved for definition by a competent regional authority Should be set to zero if regional not used for any regional application Regional applications should not use zero applications DTE Data terminal ready 0 available 1 not available default RAIM Flag RAIM Receiver Autonomous Integrity Monitoring flag of Electronic Position Fixing Device 0 RAIM not in use default 1 RAIM in u
59. all be fitted with Automatic Identification System AIS as follows All ships of 300 gross tonnage and upwards engaged on international voyages and cargo ships of 500 gross tonnage and upwards not engaged on international voyages and passenger ships irrespective of size shall be fitted with Automatic Identification System AIS as follows e Ships constructed on or after 1 July 2002 e Ships engaged on international voyages constructed before 1 July 2002 o Inthe case of passenger ships not later than 1 July 2003 o in the case of tankers not later than the first survey for safety equipment after 1 July 2003 o Inthe case of ships other than passenger ships and tankers of 50 000 gross tonnage and upward not later than 1 July 2004 o Inthe case of ships other than passenger ships and tankers of 300 gross tonnage and upwards but less than 50 000 gross tonnage not later than the first survey for safety equipment after 1 July 2004 or by 31 December 2004 whichever occurs earlier and o Ships not engaged on international voyages constructed before 1 July 2002 not later than 1 July 2008 As determined at the IMO Conference of Contracting Governments to the International Convention for the Safety of Life at Sea 1974 9 13 December 2002 This standard supersedes IEC Standard 61993 1 on DSC AIS transponders IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Ther
60. ance the current service provided by lighthouse authorities 1 3 1 INTERNATIONAL MARITIME ORGANISATION IMO PERFORMANCE STANDARD The goal of IMO can be summed up in the phrase safer shipping and cleaner oceans One of the more widely known IMO conventions is the International Convention for the Safety of Life at Sea SOLAS 1974 better known as SOLAS 74 A proposal to introduce the carriage of AIS as a SOLAS requirement was initiated by IALA during the early 1990 s using the Global Maritime Distress and Safety System GMDSS that had already been approved by IMO and was being implemented The proposed system was primarily intended to identify ships and their positions in a VTS area of coverage and in restricted waters The system used the maritime VHF Channel 70 which had been designated for Digital Selective Calling DSC Following consideration of a DSC based system IMO received a further proposal from some authorities in Scandinavia to consider a more robust transponder system This would be automatic in operation suitable for ship to shore and ship to ship purposes use the maritime VHF band and would cope with the density and movement of shipping in congested areas The proposal was considered and IMO decided to adopt a single system based on the Scandinavian proposal The system was called a Universal Ship borne Automatic Identification System It is now simply called Automatic Identification System or AIS The IMO Sub Committee
61. anging course e SOTDMA is the normally used protocol and allocates slots three to seven frames minutes ahead It means that all other AIS will have three to seven chances to receive the allocation of the ships using SOTDMA This makes the radio link robust e FATDMA is reserved for use by AIS shore stations Such stations can use FATDMA access scheme for their own transmissions reserve transmission slots for other base stations or AtoN s operation of mobile stations in the assigned mode or when responding to an interrogation by a base station The required VHF reports are essentially for short range and as they must not suffer from interference they require a substantially increased data rate For this purpose two VHF frequencies in the maritime mobile band are utilized in parallel The modulation method used is FM GMSK Frequency Modulation Gaussian Minimum Shift Keying due to its robustness its discrimination possibilities its bandwidth efficiency and its widespread application in mobile digital communications The AIS station communicates on two parallel VHF channels at the same time Each minute of time on each channel is divided into 2250 slots The 2250 slots constitute a frame and each frame is repeated every minute These are accurately synchronized using GNSS time information as a first phase timing mechanism They are able to operate using a secondary independent timing mechanism if required which provides timing accuracy
62. anoeuvre to be made for collision avoidance purposes e identifying which port or harbour a vessel is bound for e detecting a change in a vessel s heading almost in real time 10 2 POSSIBLE FUTURE USE OF AIS IN PILOTED WATERS In addition to the use of AIS standard messages there is a need to use special messages created for use in a specific pilotage area because of differing local conditions Examples of information that could be exchanged via AIS in piloted waters real time information on wind direction and speed current direction and speed water level or tidal height water and air temperature visibility sea state floating aids to navigation on station or off station fixed aids to navigation as reference targets for radar aids to navigation status identity validated synthetic aids to navigation locks open closed bridges open closed traffic information from the VTS DARN 73 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 AIS also provides the facility for a VTS centre to broadcast VTS targets to vessels A VTS target is any target that can be displayed at the VTS centre including radar targets DF targets and ARPA targets What this means for the pilot is that he will be able so see all the vessels the VTS operator sees even if those vessels do not have an AIS onboard The creation and use of these special messages to fulfil local requirements will as
63. antenna if it is designed and installed separately If a DGNSS system is included or connected to the AIS system the installation of the antenna shall be in accordance with IEC 61108 4 Ed 1 annex D 3 3 2 Cabling To achieve optimum performance the gain of the antenna pre amplifier should match the cable attenuation The resulting installation gain pre amplifier gain cable attenuation should be within O to 10 dB The coaxial cable between the antenna and the AIS ship borne station connector should be routed directly in order to reduce electromagnetic interference effects The cable should not be installed close to high power lines such as radar or radio transmitter lines or the AIS VHF antenna cable A separation of one meter or more is recommended to avoid degradation due to RF coupling Crossing of antenna cables should be done at 90 degrees to minimise magnetic field coupling All outdoor installed connectors on the coaxial cables should be waterproofed by design to protect against water penetration into the antenna cable 3 4 POWER SOURCE The AIS shall be connected to an emergency power source 3 5 SYNCHRONIZATION After installation the AIS should be synchronised properly on UTC and that position information if provided should be correct and valid 4 BRIDGE ARRANGEMENT 4 1 MINIMUM KEYBOARD AND DISPLAY The functionality of the Minimum Keyboard and Display MKD should be available to the mariner at the position from
64. ap s MAP MAP Map s March MAR MAR March Maritime Mobile Services MMSI MAX Maximum Identity number Maritime Pollutant MP MAY May applies to AIS Maritime Safety Information MSI MENU Menu Marker MKR MF Medium Frequency Master MSTR MIN Minimum Maximum MAX MISSING Missing May MAY MKR Marker Medium Frequency MF MMSI Maritime Mobile Services Identity number Medium Pulse MP MON Performance Monitor Menu MENU MP Maritime Pollutant applies to AIS Minimum MIN MP Medium Pulse Missing MISSING MSI Maritime Safety Information Mute MUTE MSTR Master Navigation NAV MUTE Mute Normal NORM MVR Manoeuvre North N N North North Up N UP oeren NUP S 77 North Up November NOV NAV Navigation October OCT NORM Normal Off OFF NOV November Officer On Watch OOW NUC Vessel Not Under Command applies to AIS Offset OFFSET OCT October On ON OFF Off Out Output OUT OFFSET Offset Own Ship OS ON On Panel Illumination PANEL OOW Officer On Watch Parallel Index Line PI OS Own Ship Passenger Vessel applies to PASSV OUT Out Output AIS Performance Monitor MON PAD Predicted Area of Danger Permanent PERM PANEL Panel Illumination Person Overboard POB PASSV Passenger Vessel applies to AIS Personal Identification Number PIN PDOP Positional Dilution Of Precision Pilot Vessel applies to AIS PILOT PERM Permanent Port Portside PORT PI Parallel Index Line Position POSN PILOT Pilot Vessel applies to AIS Positional Dilution Of Pr
65. application fields for example General Usage Gen Vessel Traffic Services VTS Aids to Navigation AtoN Search and Rescue SAR While most Fls are currently designated as reserved for future use some have been allocated to certain internationally recognised applications being termed International Function Identifiers IFls The applications are activated through the use of International Function Messages IFMs within Binary Messages using 6 bit ASCIl text 8 4 2 VTS TARGETS A proven application of AIS termed Radar Target Broadcasting or VTS Foot printing is the process of converting radar target information from a VTS centre and retransmitting it to AIS fitted vessels in the area as unvalidated synthetic AIS targets This allows all AIS fitted vessels in the vicinity to view all VTS tracked radar targets and AIS targets as well as those being tracked on their own radar s 60 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 IFM 16 is used to transmit VTS targets to a maximum of 7 in any one message Because of the impact on VDL channel loading IFM 16 should only be transmitted to provide the necessary level of safety Each VTS target message is structured as in Table 18 Identifier Type 0 The target identifier should be the MMSI number 1 The target identifier should be the IMO number 2 The target identifier should be the call sign 3 Other de
66. avigation related Terms and Abbreviations 1 Purpose The purpose of these guidelines is to provide guidance on the use of appropriate navigation related terminology and abbreviations intended for presentation on shipborne navigational displays These are based on terms and abbreviations used in existing navigation references 2 Scope These guidelines are issued to ensure that the terms and abbreviations used for the display of navigation related information on all shipborne navigation equipment and systems are consistent and uniform 3 Application These guidelines apply to all shipborne navigational systems and equipment including radar ECDIS AIS INS and IBS When navigation related information is displayed as text the standard terms or abbreviations listed in the Appendix should be used instead of using terms and abbreviations which are currently contained in existing performance standards Where a standard term and abbreviation is not available another term or abbreviation may be used This term or abbreviation should not conflict with the standard terms or abbreviations listed in the Appendix and provide a clear meaning Standard marine terminology should be used for this purpose When the meaning is not clear from its context the term should not be abbreviated Unless otherwise specified standard terms should be shown in lower case while abbreviations should be presented using upper case 122 IALA Guidelines on Automat
67. azard carried e Destination and ETA at master s discretion using UN LO CODE e Route plan way points at master s discretion e The correct and actual navigational status and e Optional Voyage related data for example air draught maximum height of vessel above water level may also be communicated In addition situational safety related messages may be considered voyage related NOTE For specific message type see chapter 8 When used in conjunction with the application of the Collision Regulations and good watch keeping practice it will enhance situational awareness The minimum mandated display provides for not less than three lines of data consisting of at least bearing range and name of a selected ship Other data of the ship can be displayed by horizontal scrolling of data but scrolling of bearing and range is not possible Vertical scrolling will show all other ships Known to AIS For more detailed information on the use of AIS in collision avoidance please refer to Use of AIS information in Collision Avoidance Chapter 9 1 3 3 1 ACTIVATION AIS should always be in operation It is also recommended that the AIS is not switched off during port stays because of the value of the ship information to port authorities AIS can be switched off where international agreements rules or standards provide for the protection of navigational information Whether at sea or in port if the Master believes that the con
68. barked and which do not Where it is required for a VTS to transmit an synthetic or virtual AIS target to an AIS ECDIS fitted vessel it will be necessary for that information to be transmitted in terms which will be recognised by the vessel however it is represented internally within a VTS centre 4 1 4 BENEFITS OF AIS 4 1 4 1 Automatic Vessel Identification Continuous operation of AIS brings many benefits to the mariner Principal amongst these as the name implies is the automatic and immediate provision of vessel identity MMSI call sign etc and position thereby facilitating rapid radio communication where necessary This benefit is of equal if not even greater value to VTS authorities VTS organisations require vessels to report to the VTS centre when approaching or entering the VTS area Without AIS VTS centres have to rely on vessels reporting 27 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 both identity and location to the VTS centre and the VTS operator then correlating this information with say an unassigned radar target The identification process is time consuming and wholly reliant on the co operation of participating vessels It is not uncommon for vessels to inadvertently fail to comply with this requirement thereby creating a potentially dangerous situation and creating further distractions for the VTS operator Even where VHF direction finding
69. been repeated Refer to 4 6 1 0 3 default 0 3 do not repeat any more Source ID 30 MMSI number of source station Sequence Number 2 0 3 refer to 5 3 1 Destination ID 30 MMSI number of destination station Retransmit Flag 1 Retransmit Flag should be set upon retransmission 0 no retransmission default 1 retransmitted Spare 1 Not used Should be zero IAI 16 DAC 001 FI 12 Last Port of call 30 UN Locode 5 characters 6 bit ASCII not available default ATD from Last Port of Call 20 Actual Time of Departure MMDDHHMM UTC Bits 19 16 month 1 12 0 not available default Bits 15 11 day 1 31 0 not available default Bits 10 6 hour 0 23 24 not available default Bits 5 0 minute 0 59 60 not available default Next Port of call 30 UN Locode 5 characters 6 bit ASCII not available default ETA at Next Port of Call 20 Estimated Time of Arrival MMDDHHMM UTC Bits 19 16 month 1 12 0 not available default Bits 15 11 day 1 31 0 not available default Bits 10 6 hour 0 23 24 not available default Bits 5 0 minute 0 59 60 not available default Main Dangerous Good 120 Maximum 20 characters 6 bit ASCII EE not available efault IMD category of Main 24 Maximum 4 characters 6 bit ASCII Dangerous Good not available default UN Number of Main 13 1 3363 UN Number Dangerous Good 3364 8191 should not be used 0 not avai
70. bols terms and abbreviations NAV 50 19 Annex 7 This appears at Annex 4 of this document e Display on Radar An IEC test standard was finalised in September 2003 IEC 60936 5 Ed 1 0 refers e Display on ECDIS INS and IBS The issue of the displaying AIS information on ECDIS Integrated Navigation Systems INS and Integrated Bridge Systems IBS is being discussed by IEC and there are no outcomes at the time of revising this document 5 1 1 1 On board display requirements In developing the Test Standard IEC 61993 2 the IEC Technical Committee 80 specified a minimum display requirement for AIS in order to validate the proposed test functions This requires as a minimum a display of at least three lines of 16 alphanumeric characters which is sufficient to obtain the target vessel s identity and position This positional information is displayed relative to the observing vessel However to obtain the full benefit of the AIS capability the system should be integrated to one of the existing graphical displays on the bridge or a dedicated graphical display Greater functionality will be provided by a more capable graphical display but selection of the type of display is dependent on the user requirement and options offered by manufacturers The IMO Performance Standard leaves the question of display requirements unspecified although the assumption has been that ideally the AIS information would be displayed on the ship s
71. cable for all displays on the bridge of a ship These performance standards are applicable to any display equipment associated with the navigation systems and equipment for which individual performance standards have been adopted by the Organization They also address display equipment associated with navigation systems and equipment for which individual performance standards have not been adopted In addition to the general requirements set out in Resolution A 694 17 display equipment should meet the requirements of these performance standards as applicable The general principles are addressed in paragraphs 5 and 8 IEC Publication 60945 see Appendix 1 4 DEFINITIONS Definitions are given in the Appendix 100 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 5 GENERAL REQUIREMENTS FOR THE PRESENTATION OF INFORMATION 5 1 Arrangement of information 5 1 1 The presentation of information should be consistent with respect to screen layout and arrangement of information Data and control functions should be logically grouped Priority of information should be identified for each application permanently displayed and presented to the user in a prominent manner by for example use of position size and colour 5 1 2 The presentation of information should be consistent with respect to values units meaning sources validity and if available integrity 5 1 3 T
72. cation Digit Minimum Keyboard and Display Maritime Mobile Service Identity Maritime Safety Committee of IMO Message Sub Committee for Navigation of IMO Not Under Command 98 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 OOW PDOP Pl PPU RAI RATDMA REEFREP RF RIATM ROT Rx SAR SME SOG SOLAS SOTDMA SRS SSD TEZ TCPA TDMA THD TSS Tx UN LOCODE UTC VDL VHF VSD VTS WG WGS 84 WP WRC Officer of the Watch Position dilution of precision Presentation Interface Portable Pilot Unit Regional Application Identifier Random Access Time Division Multiple Access Great Barrier Reef and Torres Strait Ship Reporting System Radio Frequency Restricted in Ability to Manoeuvre Rate of Turn Receiver Search and Rescue Ship borne Mobile Equipment Speed over Ground International Convention for the Safety of Life at Sea 1974 Self Organising Time Division Multiple Access Ship Reporting System Station Static Data proposed Tanker Exclusion Zone Time of Closest Point of Approach Time Division Multiple Access Transmitting Heading Device Traffic Separation Scheme Transmitter Codes for ports and other locations Co ordinated Universal Time GMT VHF Data Link Very High Frequency Voyage Static Data proposed Vessel Traffic Service Working Group World Geodetic System 1984 Way Point World Radio Conference 99 IALA Gu
73. ccceeeceeecceeceeeceeeceeeceeeeeeeennes 67 9 1 6 ARPASATA NEE 67 9 1 7 RE 67 9 2 OPERATIONAL REOUIREMENTIS 69 9 2 1 Presentation Of nformation 69 9 2 2 Processing Of Information ir icreirere toi iiti itno EELE EA IR 70 9 3 HUMANINTERFA CE onneani dees sae A A TEN a a TaS 71 9 4 ECH E OUER KE LR EEN 71 9 5 LIMITATIONS ASSOCIATED WITH THE USE OF AIR 72 9 6 AVAILABILITY OF NATIONAL REGIONAL LOCAL DGNSS CORRECTIONS ere eege aa dees ev eet shea erte 72 10 USE OE ATS IN PILOTAGE eegene Stgasiri ens Ea aE E Ea 73 10 1 OVERVIEW eg feet ageet tt ees oad lived te bas See 73 10 2 POSSIBLE FUTURE USE OF AIS IN PILOTED WATERS 0000assasee 73 10 3 PORTABLE PILOT PACK 74 11 INSTALLATION OF AIS ON BOARD 75 12 CAUTION WHEN USING AIS 75 ANNEX 1 IMO GUIDELINES FOR INSTALLATION OF SHIPBORNE AUTOMATIC IDENTIFICATION SYSTEM AIS 77 UN e EE 77 2 E e e NEE 77 3 AIS INSTA LAT O N E 77 3 1 INTERFERENCE TO THE SHIP S VHF RADIOTELEPHONE ccccssesceeeeueeeees 71 3 2 VHF ANTENNA INSTALLATION c0ccccccssssccceasescceceeaaseeceaaeeceseauececsauaeeees 78 3 2 1 TOC QUHON ege dE NENNEN ENEE 78 3 2 2 TE 78 3 2 3 GrOUNTIN eier 78 3 3 GNSS ANTENNA INSTIALLATION cess 78 3 3 1 EE 79 3 3 2 Eege ENEE tess Ee 79 3 4 POWER SOURCE et Eed EE 79 35 SYNCHRONIZATION isscecnssccposeutacecsincescaves EEN EEN 79 4 BRIDGE ARRANGEMENT sesessserereressssseresssssororesessssssreresesssssseeesssssese 79 4 1 MINIMUM KEYBOARD AND DISPLAY
74. cise navigation With the advent of electronic charts there are clear benefits to be gained from using such charts as the background to the traffic image By so doing vessel navigation may be monitored and or assisted in relation to precisely charted features In VTS systems not fitted with electronic charts such information or assistance can only be given in relation to radar detectable features such as coastline or navigational buoys or as depicted on existing VTS display diagrams 26 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Where reliance is to be placed on electronic charts for this purpose it is important that an approved hydrographic office national authority issues them thus ensuring data is accurate and up to date Particular care must be taken when using charts based on older datums and plotting GNSS derived positions on them as the accuracy of the charts will probably not be equal to that of the GNSS position It is anticipated that VTS authorities will be able to broadcast local chart corrections to suitably equipped ECDIS ECS vessels and to issue navigational warnings electronically using AIS In confined waters it is likely that VTS operators in monitoring vessel manoeuvres will occasionally have need to increase the scale of their displays In such circumstances it will be important that the electronic chart acting as the background to the traffic image i
75. d archiving of data 4 1 5 5 System redundancy By equipping VTS centres with AIS an alternative method of tracking and monitoring vessel navigation is introduced thereby improving system redundancy significantly 4 1 5 6 Potential for interaction within regional AIS network Increasing emphasis is being placed on networking VTS centres on a regional basis Such an arrangement facilitates greater efficiency by making possible the rapid transfer of vessel details between different centres Adoption of AIS within the relevant VTS centres may contribute toward this process 31 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 4 1 5 7 Improved SAR Management Several marine and VTS authorities are equipping or intend to equip SAR capable units including aircraft and helicopters with AIS The AIS voyage related message permits a vessel to transmit the number of persons onboard Whilst this is not mandatory for vessels at sea it can be made a formal requirement in a VTS area The provision of such details and the ready identification and location of SAR units greatly facilitates the management and evaluation of any SAR response 4 1 6 PERSONNEL AND TRAINING For information on personnel and training refer to IALA Model Courses V103 1 V103 2 V103 3 its associated task books and V103 4 4 1 7 SHORT TERM ACTION BY VTS AUTHORITIES With the SOLAS carriage of AIS now underway VTS aut
76. dar based systems Radar based VTS systems often differ in the way radar video is handled and processed prior to presentation of the traffic image System design and age are thus likely to influence the options for successfully integrating AIS A full appreciation of those options together with any consequences will normally only be possible after consultation with the relevant manufacturers In many VTS areas vessel traffic is varied and includes both SOLAS and non SOLAS vessels In these circumstances radar will remain the primary sensor for detecting vessels not fitted with AIS Economies in infrastructure are therefore unlikely AIS data is transmitted at variable rates depending upon vessel speed and manoeuvre In contrast radar data is generated at a constant rate as defined by the antenna rotation speed The integration of AIS into a radar based VTS system thus needs to be capable of achieving and maintaining the correlation of AIS and radar data originating from the same vessel despite unpredictable variations in data rates The potential benefits of AIS would be quickly reduced should the process of integration result in the generation of numerous false tracks 4 1 3 2 Use of electronic charts VTS systems have traditionally used a schematic representation of the geographical and hydrographic features of the relevant area as the background to the traffic image The accuracy of such representations however is not suitable for pre
77. derived from different sensors should be identical If the signal of a dangerous AIS target is not received for a set time a lost target symbol should appear at the latest position and an alarm be given the lost target symbol should disappear after the alarm has been acknowledged and means to recover the data for a number of last acknowledged lost targets may be provided Preferably this function may also be applied to any AIS target within a certain distance An automatic display selection function may be provided to avoid the presentation of two target symbols for the same physical target If target data from AIS and from radar plotting functions are available then the activated AIS target symbol should be presented if the automatic selection criteria are fulfilled otherwise the respective symbols should be displayed separately The operator should have the option to make reasonable changes to the default parameters of automatic selection criteria Means should be provided to display and acknowledge alarm messages from own AIS Indication should be given if own AIS is out of service or switched off 9 3 HUMAN INTERFACE As far as practical the user interface for operating displaying and indicating AIS functions should be equivalent to the other relevant functions of the navigational aid Note AIS uses WGS84 datum Users should be aware that alternative datums used in electronic aids or referenced on a paper chart may induce
78. e by the operator The active display mode should be indicated 69 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 The presentation of AIS target symbols except for sleeping or lost targets should have priority over other target presentations within the display area including targets from EPA ATA or ARPA If such a target is marked for data display the existence of the other source of target data may be indicated and the related data may be available for display upon operator command The mariner should be able to select additional parts of the information from AIS targets which should then be presented in the data area of the display including the ship s identification at least the MMSI If the received AIS information is not complete this should be indicated A common reference should be used for the superimposition of AIS symbols with other information on the same display and for the calculation of target properties e g TCPA CPA If AIS information is graphically displayed on radar the equipment should be capable of appropriately stabilising the radar image and the AIS information Target data derived from radar and AIS should be clearly distinguishable as such The operator may choose to display all or any AIS targets for graphical presentation The mode of presentation should be indicated If the display of AIS symbols is enabled removing a dangerous targe
79. e interactive presentation and entry or selection of operational parameters data and commands mainly in alphanumeric form 114 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 User Selected Presentation An auxiliary presentation configured by the user for a specific task at hand The presentation may include radar and or chart information in combination with other navigation or ship related data KKK ANNEX 5 DRAFT GUIDELINES FOR THE PRESENTATION OF NAVIGATION RELATED SYMBOLS TERMS AND ABBREVIATIONS 1 The Sub Committee on Safety of Navigation NAV at its fiftieth session 5 to 9 July 2004 agreed on guidelines for the presentation of navigation related symbols given in annex 1 and terms and abbreviations given in annex 2 also agreed that they should be used for the display of navigation related information on all shipborne navigational equipment and systems in consistent and uniform manner 2 The Maritime Safety Committee at its seventy ninth session 1 to 10 December 2004 concurred with the Sub Committee s views approved the annexed Guidelines and encouraged their use for all shipborne navigational systems and equipment 3 Member Governments are invited to bring the annexed guidelines to the attention of all concerned 115 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 ANNEX 1 Guidelines for
80. e is nothing in the SOLAS regulations which prevents Administrations from requiring their nationally registered domestic vessels within their jurisdiction to implement the new SOLAS regulation in advance of the promulgated date 2 5 CARRIAGE REQUIREMENT FOR OTHER VESSELS Administrations also have scope under SOLAS V 1 4 to determine to what extent the provisions of the regulation will apply for 1 ships below 150 gross tonnage engaged on any voyages 2 ships below 500 gross tonnage not engaged on international voyages and 3 fishing vessels Administrations are expected to consider AIS requirements for categories of smaller vessel including recreational craft appreciating the proportionality of AIS effectiveness to inclusiveness of such carriage requirements 2 6 CLASS A AND CLASS B SHIP BORNE MOBILE EQUIPMENT In recognition of this requirement allowance has been made in the AIS Technical Standards ITU R M 1371 1 for both Class A and Class B Ship borne Mobile Equipment Class A equipment complies with the IMO AIS carriage requirement while the Class B provides capabilities not necessarily fully compliant with IMO requirements but necessarily system compatible to perform satisfactorily on the VDL Class B equipment for example transmits reports at less frequent intervals than the Class A standards see Tables 3 amp 2 respectively Administrations have the responsibility of determining the applicability of Class A or Class B eq
81. ear to be a vessel orientated at right angles to its true movement This distortion of target information is especially true in the case of a large vessel such as a tanker with a high superstructure aft where the visible radar echo is probably reflection from the after structure and not the centre of the ship 9 1 4 Radar information There are more aspects such as the resolution of the monitor used and raw radar processing which presents targets that are neither equivalent to the real target s dimension nor indicative of it Thus in most cases one cannot reliably assess from radar observation alone the heading of a vessel which may also differ from the course over ground Further when altering course a vessel s hull experiences two actions Altering the position of the rudder e g to starboard causes the vessel to turn around its centre of rotation which may be located a third of the ship s length from the stem This centre itself still moves straight on over ground while the part ahead of the centre moves to starboard of the centre while the part aft of it turns to port of it As a consequence the whole ship begins to change course over ground Figure 7 66 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 At the commencement of a course alteration the larger radar reflecting part of a vessel moves in a direction opposite to the actual direction of turn and
82. ecification Data in out standard Connector standard Built in Test Unit details Although the responsibility for drafting Class B non SOLAS AIS standards resides with IEC the development of this standard has been delayed for several reasons The final draft is expected not earlier than early 2005 As a consequence the time frame for incorporation of Class B information into the ITU R M 1371 1 Technical Clarifications is expected to be around 2005 1 3 4 IMO Carriage Requirement With the IMO Performance Standard the ITU R Technical Characteristics Standards and the IEC Test Standard IMO has included the AIS as a carriage requirement within the newly revised SOLAS Chapter V as summarised in 2 4 1 3 5 Non SOLAS Convention Ships Ships to which Regulation 19 of Chapter V of SOLAS do not apply are broadly fishing vessels pleasure craft support vessels and inland waterway vessels It is expected that national administrations and the operators of these vessels will quickly realise the potential of AIS and its capability to enhance the safety of navigation For instance pleasure craft will not require all of the available data provided by AIS and will primarily be interested in ensuring that large ships identify them It is expected that AIS devices with a lesser capabilities will become available for such vessels 1 3 6 Administration Competent Authority shore installations The AIS concept began with ship identification objectiv
83. ecision PDOP PIN Personal Identification Number 126 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Term Abbreviation Abbreviation Term Power PWR PL Pulse Length Predicted PRED PM Pulse Modulation Predicted Area of Danger PAD POB Person Overboard Predicted Point of Collision PPC PORT Port Portside Pulse Length PL POSN Position Pulse Modulation PM PPC Predicted Point of Collision Pulse Repetition Frequency PRF PPR Pulses Per Revolution Pulse Repetition Rate PRR PRED Predicted Pulses Per Revolution PPR PRF Pulse Repetition Frequency Racon RACON PRR Pulse Repetition Rate Radar RADAR PWR Power Radius RAD RACON Racon Rain RAIN RAD Radius Range RNG RADAR Radar Range Rings RR RAIM Receiver Autonomous Integrity Monitoring Raster Chart Display System RCDS RAIN Anti Clutter Rain Raster Navigational Chart RNC RAIN Rain Rate Of Turn ROT RCDS Raster Chart Display System Real time Kinemetic RTK REF Reference Receiver RASA NEA DEL 77 TEE Relative Receiver Autonomous Integrity RAIM RIM Vessel Restricted in Monitoring Manoeuvrability applies to AIS Reference REF RM Relative Motion Relative REL eme RMS Root Mean Square Relative Motion RM RNC Raster Navigational Chart Revolutions per Minute
84. eeeeeeeenes 48 8 2 3 Static and Voyage Related Dote 49 8 2 4 EXTENDED STATIC AND VOYAGE RELATED DATA 51 8 2 5 SHIP DIMENSIONS AND REFERENCE FOR POSITION AA 51 8 2 6 BINARY MESSAGES EE 52 8 2 7 SHORT SAFETY RELATED MESSAGES o e 52 8 3 NON STANDARD M sgAOEsg 53 8 3 1 SAR AIRCRAFT POSITION REDORT AA 53 8 3 2 DGNSS BROADCAST MESSAGE 54 8 3 3 DGNSS BROADCAST BINARY MESSAGE ceecee 54 8 3 4 AID TO NAVIGATION MESSAGE 54 8 4 INTERNATIONAL APPLICATION IDENTIFIER OAI 58 8 4 1 Binary Messages and Functional Identifier ooe 58 8 4 2 VIS TARGE TEE 60 8 4 3 INTERNATIONAL FUNCTION MESSAGE 17 IFM 17 SHIP WAYPOINT S ROUTE PLAN cet utere e E a a a a e aie 6l 8 4 4 IFM 18 Advice of VTS Waypoints Route Pion ieee eeeeeees 62 8 4 5 IFM 19 EXTENDED SHIP STATIC AND VOYAGE RELATED DATA 63 e RE 63 8 4 7 IFM 40 Number of Persons Onboard oee 64 USE OF AIS INFORMATION cccccssccssssscecnscccsecccescsecesccecscesssesssesscensenens 65 9 1 USE OF AIS INFORMATION IN COLLISION AVOIDANCE 65 9 1 1 AAE E 1 ATE EE sks E E AA A 65 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 9 1 2 Limitation of radar performance osoossssseseeeseeeseeeseeesssrsreseeeesee 66 9 1 3 Raw Radar Targets vccscccciccasesssasncectadeesaessssavsvecesgcttasseisavececticesecesebees 66 9 1 4 R dar inf rmati ofe eei eeen e EAE EEE E A EEEO ah 66 9 1 5 Tracked Radar Targets ccccccccccssccnsscccccne
85. eir coastal waters designated SRS area or EEZ as appropriate All vessels fitted with AIS should be able to automatically provide the majority of any reports required when within VHF range The information that will be available to a polling authority will be available via a long range message provided through the AIS Long Range serial interface and not via the standard VHF Data Link VDL messages see Long range message Chapter 7 AIS is also provided with a two way interface for connecting to long range communication equipment Initially it is not envisaged that AIS will be able to be directly connected to such equipment A shore station would first need to request that the ship makes a long range AIS information transmission Any ship to shore communication would always be made point to point and not broadcasted Once communication has been established e g via INMARSAT C the ship would have the option of setting its AIS to respond automatically to any subsequent requests for ship reports from that shore station or at regular intervals as appropriate 23 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 This functionality will allow a quicker response to emergencies such as search and rescue SAR as well as environmental pollution response and will enable the coastal state to assess the navigational requirements or improvements that may be necessary for navigational safe
86. eported position Also indicates the dimension of ship in metres see Figure 3 Type of Electronic Position Fixing Device Maximum Present Static Draught 0 Undefined default 1 GPS 2 GLONASS 3 Combined GPS GLONASS 4 Loran C 5 Chayka 6 Integrated Navigation System 7 surveyed 8 15 not used Estimated Time of Arrival MMDDHHMM UTC month 1 12 0 not available default day 1 31 0 not available default hour 0 23 24 not available default minute 0 59 60 not available default in 1 10 m 255 draught 25 5 m or greater 0 not available default in accordance with IMO Resolution A 851 Destination Maximum 20 characters using 6 bit ASCII C CCCCCECECECCECECECCECE CE E not available Data terminal ready 0 available 1 not available default Table 10 Ship Static and Voyage Related Data Report Content and Format 49 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Identifiers Used by Ships to Report Their Type First digit Second digit 0 Not used 0 All ships of this type 1 Reserved for future use 1 Carrying DG HS or MP IMO hazard or pollutant category A 2 WIG 2 Carrying DG HS or MP IMO hazard or pollutant category B 3 See Table 12 below 3 Carrying DG HS or MP IMO hazard or pollutant category C 4 HSC 4 Carrying DG HS or MP IMO hazard
87. equipment including the integrated navigation system where available In addition at the time of installation important static ship related information has to be entered into the AIS memory unit this includes identity length and beam type of ship and the location of the position fixing antenna The AIS should ideally be connected through an uninterrupted power supply UPS to the ship s power supply as defined in SOLAS Chapter Il 1 The unit will be fitted with at least a minimum keyboard and display MKD or a dedicated graphical display which interfaces with the AIS and performs two functions e Displays the units operational status which should be regularly checked and e Displays target information which is described in the Guidelines 3 3 OPERATION DURING THE VOYAGE The AIS once activated will continuously and autonomously broadcast the vessel s position and all the static dynamic and voyage related information as required by the IMO performance standards However while the vessel s speed and rate of turn manoeuvres will automatically determine the update rate there remains a need for the Master or an authorised person to manually input at the start of the voyage and whenever changes occur the following voyage related data e Ship s draught 21 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 e Type of hazardous cargo most significant h
88. equipment is fitted the VTS traffic image is still reliant on vessels reporting identity via VHF thereby permitting the correlation of identity with the track acquired by other means AIS will help overcome the shortcomings and time consuming procedures inherent in the present arrangements 4 1 4 2 Improved Vessel Tracking e Wider geographical coverage AIS data will be received by other AIS units or by base or repeater stations Where a VTS organisation is fitted with such equipment it will be capable of receiving both the identity and precise location of a vessel at the maximum reception range of the VHF radio communications frequency As a consequence it will often permit detection of targets well outside the conventional radar range Even where this is not possible due to the need to screen base stations from adjacent VHF interference extended VTS detection range may be achieved by the installation of additional base or repeater stations connected into a network at much lower cost than radar e Greater positional accuracy AIS can broadcast positional accuracies of better than 10 metres when associated with DGNSS correction signals This compares favourably with radar targets which as a function of frequency pulse repetition rate and beam width will often only achieve positional accuracy in the range 30 to 50 metres e Absence of radar shadow area In coastal and harbour waters radar tracking of vessels can be masked or
89. equirements for the operational area Chartlets or windows of radar information may be presented along with other information associated with the task at hand 8 PHYSICAL REQUIREMENTS 111 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 8 1 Display adjustment 8 1 1 It should be possible to adjust the contrast and brightness of the display provided as applicable to the display technology It should be possible to dim the display The range of control should permit the display to be legible under all ambient light conditions 8 1 2 It should be possible for the navigator to reset the values of contrast and or brightness to a preset or default condition 8 1 3 Where magnetic fields degrade the presentation of navigation information a means to neutralise the effect of magnetic fields should be provided 8 2 Screen size 8 2 1 Display equipment should be of sufficient size to support the requirements of the relevant performance standards adopted by the Organization 8 2 2 The operational display area of the chart presentation for route monitoring should be at least 270 x 270 mm 8 2 3 The operational display area of the radar presentation should be at least a circle of diameter of 180 mm for ships smaller than 500 gross tonnage 250 mm for ships larger than 500 gross tonnage and HSC less than 10000 gross tonnage _ 320 mm for ships larger than 10000 gross tonnage 8
90. erefore an AtoN AIS station which transmits Message 21 could also transmit Safety Related Messages upon detecting that the floating AtoN is out of position or is malfunctioning AIS messages for an AtoN may be generated from information derived from the AtoN itself and broadcast directly from the AtoN or may be broadcast from an AIS unit not located at the AtoN These should be referred to by the following terms PHYSICAL AID TO NAVIGATION e AIS AtoN e Where the AtoN is equipped with an AIS designed to generate the appropriate AIS messages using local data from that AtoN 19 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 e Synthetic AIS AtoN e Where the AIS message for the AtoN is transmitted from another location and the AtoN is physically located at the position given in the AIS message NON PHYSICAL AID TO NAVIGATION e Virtual AIS AtoN Where the AIS message is an AtoN message but there is no physical AtoN at the location indicated in the AIS message 2 9 AIS AND MARITIME SECURITY IALA has a role to play in maritime security because information provided by systems like AIS and VTS can contribute valuably to organisations responsible for maritime security However the role of AIS in this regard will rely on regulations made by Administrations The limitations of AIS beyond its original role as a navigational safety system including the capacity and capabili
91. es and transitioned to the ITU and IEC standards for ship borne mobile equipment The need for AIS shore stations was recognised and the updated guidelines for AIS shore stations and networks are included in part 2 of this document ITU R M 1371 1 compatibility is vital when specifying or selecting equipment for shore installations IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 1 3 7 AIS key dates The development and acceptance of the AIS has in international timescales been short as can be seen from the following key dates 1997 IMO Sub Committee on Safety of Navigation approves a draft AIS Performance Standard 1997 ITU World Radiocommunication Conference allocates two AIS VHF Channels 1998 IMO Maritime Safety Committee adopts the AIS Performance Standard 1998 IMO Maritime Safety Committee includes the AIS within Draft SOLAS Chapter V Regulation 19 1998 ITU adopts the AIS Technical Characteristics 2001 IEC approves AIS Test Performance Standard 61993 2 2001 IALA publishes the IALA Technical Clarifications of Recommendation ITU R M 1371 1 2002 IALA publishes IALA Guidelines on AIS Version 1 0 2002 IMO carriage requirement for AIS commences from 01 July with a phased in approach as follows All ships of 300 gross tonnage and upwards engaged on international voyages and cargo ships of 500 gross tonnage and upwards not engaged on international voyages and pa
92. es per minute and above should be limited to 708 degrees per minute 2 other ROT source in use 127 turning right at more than 5 30s No TI available 0 no turn 127 turning Left at more than 5 30s No TI available 3 no valid ROT information available 128 80 hex indicates no turn information available default Table 23 ROT Sensor Fallback Conditions Rate of Turn Indicator according to resolution A 526 13 determined by talker ID te based on HDG information 84 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Figure 10 Rate of Turn Sensor Input Overview HDG Transmitting AIS HDG sensor default value bes 128 if no ROT aa Pos Report information available 1 b 2 3 l ROT e Se mio R direction indication ROT g e A 127 if gt 57 30min direction and value Rate of 0 126 coded by Turn EE ROTais 4 733 V ROT sensor A 526 13 ission VDL Application Receiving AIS transparent throughput Display to presentation interface of direction of turn or value of The receiving AIS does not establish ROT if i the original ROTsensor value This must available be accomplished by the connected application Display HDG of Heading The application may also establish direction of turn by differentiating Heading by time if ROT is not available 85 IALA Guidelines on Automatic Identification
93. estimate of about 3000 reports per minute was calculated for the Singapore Straits A similar calculation for Dover Strait gave a requirement for about 2 500 reports per minute On practical grounds a figure of 2000 reports per minute was chosen as the maximum requirement together with the following update rates Class A ship borne mobile equipment reporting intervals Ship s Dynamic Conditions Nominal Reporting Interval Ship at anchor or moored and not moving faster than 3 3 minutes knots Ship at anchor or moored and moving faster than 3 10 seconds knots Ship 0 14 knots 10 seconds Ship 0 14 knots and changing course 3 3 seconds Ship 14 23 knots 6 seconds Ship 14 23 knots and changing course 2 seconds Ship gt 23 knots Ship gt 23 knots and changing course Table 2 Update intervals Class A Ship borne Mobile Equipment SME In order to predict the turning rate and track when ships are altering course an increased update rate is needed A rate that is three times faster than standard has been selected based on the required position accuracy Note 1 These values have been chosen to minimize unnecessary loading of the radio channels while maintaining compliance within the IMO AIS performance standards Note 2 If the autonomous mode requires a higher reporting rate than the assigned mode the Class A ship borne mobile AIS station should use the autonomous mode 38 IALA Guidelines on Automatic Identi
94. et nie E 14 2 3 COMPLETAN GE dn ERENNERT ASSA aces r EEEa OPNE E erR tee 14 2 3 1 IMO Performance Standard ccccccccccccceee cece cece cette tenet eee tent eeeeeees 15 2 3 2 Details of Functional Requirements 15 2 3 3 ITU Technical Standard 16 2 3 4 VHF Channel Allocation 16 2 3 5 TEC Test Standard ayir o Nee NENNEN sens 16 2 4 SOLAS CARRIAGE REQUIREMENTS s ss ssssessesossoeostesoriorisrorierisrisrases rese 17 2 5 CARRIAGE REQUIREMENT FOR OTHER NESSELS 18 2 6 CLASS A AND CLASS B SHIP BORNE MOBILE BOUIPMENT 18 SE INLAND WATERWAYS NEE AE EA de 18 2 8 AIDS TO NAVIGATION sisscs sauces iets Sere a DEENEN EN 18 2 9 AIS AND MARITIME SECURITY cccccccccssccssccececsseeeeeceeeceeeeeeeceeeeeeeeeeeeeeeenees 20 3 OPERATION OP AIS ics cha cael Mt ea a ee 21 3 1 ONBOARD OPERATIONAL USE OF SHIPBORNE AIS ee 21 3 2 BASIC OPERATION PROCEDURES 21 3 3 OPERATION DURINGTHENON AO 21 3 3 1 Ee NEE 22 3 3 2 INTEGRELY CHE CK is eg ek eegen deen Eech 22 3 4 OPERATION ON BOARD IN A COASTAL AREA SHIP REPORTING SYSTEM SRS AREA OR EXCLUSIVE ECONOMIC ZONE EEZ 00 23 4 OPERATION OF AIS ASHORE moccan eiennenn nenian n EE a E asata 25 4 1 USE OFAISINV TS eere a E dE es 25 4 1 1 IMO GUIDELINES FOR VIe 25 4 1 2 INSTALLATION OF AIS INTO A MIR 25 4 1 3 OTHER ISSUES TO BE TAKEN INTO CONSIDERATION 26 4 1 4 BENEFILS OF AIS cinean a vn vente da tact dE 27 4 1 5 SHORE TO VESSEL AIS SERVICES 30 4 1 6 PERSONNEL AND
95. ew binary message it should address to the Sub Committee a demonstrated operational need and provide the proposed format and content of the message Then the Organization may accept assign an identifier and publish it in an updated SN circular for the benefit of the maritime industry 8 Member Governments are invited to bring the annexed information to the attention of all concerned 88 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 APPENDIX 1 GUIDANCE ON AIS BINARY MESSAGES 1 This document provides an overview of the purpose and scope of AIS Binary Messages and their applications System Requirements 2 Binary Messages may be transmitted and received by shipborne mobile AIS devices and AIS base stations that are equipped to process these messages Shore based stations may receive ships Binary Messages and distribute them to other ships and or users 3 The display capability of AIS binary messages is not part of the mandatory functions of the MKD Minimum Keyboard and Display The display of the information content of binary messages may require hardware additional to the AIS and dedicated software Purpose and scope of AIS Binary Messages 4 Automatic Identification System AIS was originally and is primarily a means for positive identification and tracking of vessels e g by transmitting and receiving static dynamic and voyage related data of ships as well as s
96. fault Target Identifier The Target ID should depend on Type of Target Identifier above When call sign is used it should be inserted using 6 bit ASCII If Target Identifier is unknown this field should be set to zero When MMSI or IMO number is used the least significant bit should equal bit zero of the Target ID Time Stamp UTC second when the report was generated 0 59 or 60 if time stamp is not available which should also be the default value SOG Speed over ground in knots 0 254 255 not available default Table 18 VTS targets Message Structure Note A VTS target should only be used when the position of the target is known Note that the target identity and or course and or time stamp and or speed over ground may be unknown Sections 8 4 3 to 8 4 6 that follow describe some IFMs as stipulated by ITU The seven IMO approved international applications differ from these below mainly by way of numbering the IAls Further IFMs 17 amp 18 on waypoints Route Plan has not been included in the IMO list of messages 8 4 3 INTERNATIONAL FUNCTION MESSAGE 17 IFM 17 SHIP WAYPOINTS ROUTE PLAN A ship uses IFM 17 to report its waypoints and or its route plan If the reporting ship uses this IFM 17 within an Addressed Binary Message then the waypoints and or the route plan will only be available to the addressed station that is a Base Station VTS centre or another ship If the reporting ship uses IFM
97. fault Extension of closed area extension valid range 0 1000 1001 not available default radius Unit of extension value 0 ml 1 m 2 nm 3 col Ca a a a CC Closing from month Ia 1 12 0 month unavailable default 13 15 unused From LT minute appr 6 0 59 60 LT minute not available default 61 63 not used To LT minute appr TI e 0 59 60 LT minute not available default 61 63 not used Spare 4 Total number of bits 472 occupies 3 slots Purpose This message should be used to inform ships in particular to give guidance to large vessels about temporary closed fairways or sections in ports Attributes broadcast shore station transmitting no acknowledgement 94 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 APPLICATION 4 Message TIDAL WINDOW Message ID Identifier for Message 6 always 6 Repeat Indicator Used by the repeater to indicate how many times a message cad Destination ID MMSI number of destination station 30 a ees Retransmit Flag a Retransmit Flag should be set upon retransmission 0 no Sa 16 ae ee ee retransmission default 1 retransmitted Position 1 Lat 27 1 10 000 min 90 degrees North positive South negative 91 degrees not available default 1 10 000 min 180 degrees East positive West negative 181 degrees not available default Curren
98. fication System AIS Volume 1 Part I Operational Issues Ed 1 3 Reporting intervals for equipment other than Class A ship borne mobile equipment Platform s Condition Nominal Reporting Interval Class B Ship borne Mobile Equipment not moving 3 minutes faster than 2 knots Class B Ship borne Mobile Equipment moving 2 14 30 seconds knots Class B Ship borne Mobile Equipment moving 14 23 knots Class B Ship borne Mobile Equipment moving gt 23 5 seconds knots Search and Rescue aircraft airborne mobile 10 seconds equipment Table 3 Update intervals Class B Ship borne Mobile Equipment SME 1 In certain technical conditions related to synchronisation a mobile station s reporting rate may increase to once every 2 seconds 2 The Base Station rate increases to once every 27 seconds if the station detects that one or more stations are synchronising to it the base station 7 3 SHIP BORNE INSTALLATIONS The ship borne AIS is designed to provide identification navigational information and vessel s current manoeuvring information to other ships Options include connection to external GNSS DGNSS equipment and other sensor sources of navigational information from ship s equipment Interfacing is in accordance with IEC 61162 series standards see Figure 2 Chapter 7 gives full details of the transmitted data included in AIS messages and Chapter 8 gives the details of the messages 39 IALA Guidelines on Automat
99. formance surpasses ship borne radar in three aspects e AIS aims to achieve a positional accuracy of better than 10 m when associated with DGNSS corrections This compares favourably with radar whose accuracy is a function of frequency pulse repetition rate and beam width and which will often achieve a positional accuracy of 30 50 m e Due to the higher positional accuracy and less need for plot filtering the position and changes of course over ground can be presented with less delay than that by radar e The AIS provides supplementary information about other vessels that is not readily available from radar such as identity heading COG SOG rate of turn and navigational status On the basis of this more accurate and complete information the passing distance between vessels can be determined with higher accuracy and reliability From the navigational status information available any manoeuvring restrictions on a vessel become immediately evident and can be taken into account As a result it can be seen that AIS provides more complete information than ship borne radar When used in conjunction with radar it enhances the available information AIS can also assist in the identification of targets by name or call sign and by ship type amp navigational status thus reducing the requirement for verbal information exchange 67 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3
100. g agreed that the Steering Group should become the AIS Committee of IALA IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 1 PREFACE 1 1 INTRODUCTION The issue of correlating a ship s identity and its position in coastal waters and port approaches has been frustrating shore authorities for some time It has long been realised that an automatic reporting device fitted to vessels will contribute greatly to the safety of navigation and traffic management by exchanging information such as identity position time course and speed between ship and shore regularly automatically and autonomously The emergence of new communication techniques offers the ability to combine high positional and timing accuracy available via GNSS and the rapidity of reliable data exchange That is a system that uses GNSS technology and enhanced autonomous broadcast techniques is now both technologically feasible and economically viable Coastal ship reporting systems VTS and ports will be benefit from the exchange of real time ship data as will ship ship safety and collision avoidance The Automatic Identification System AIS is such a device It is defined in section 2 1 The introduction of AIS technology is described in section 1 3 AIS has the potential to support a wide range of maritime regulatory and traffic monitoring activities and as a tool to assist with maritime security These AIS Guidel
101. g of Electronic Position Fixing Device 0 RAIM not in use default 1 RAIM in use Virtual 0 default real A to N at indicated position 1 no AtoN ATON does AtoN Flag not physically exist may only be transmitted from an AIS station nearby under the direction of a competent authority 2 Assigned Mode Flag 0 Station operating in autonomous and continuous mode default 1 Station operating in assigned mode Spare Spare Not used Should be set to zero Name of Aid to This parameter of up to 14 additional 6 bit ASCII characters for a 2 slot Navigation Extension message may be combined with the parameter Name of Aid to Navigation at the end of that parameter when more than 20 characters are needed for the Name of the Aid to Navigation This parameter should be omitted when no more than 20 characters for the name of the A to N are needed in total Only the required number of characters should be transmitted i e no character should be used Spare Spare Used only when parameter Name of Aid to Navigation Extension is used Should be set to zero The number of spare bits should be adjusted in order to observe byte boundaries Table 16 Aid to Navigation Report Message Footnotes 1 When using Figure 3 for an aid to Navigation the following should be observed e For a fixed Aid to Navigation virtual and synthetic A to Ns and for off shore structures the orientation established by the dimension
102. gh AIS it is now possible to have an AtoN site transmit its identity state of health and other information such as real time tidal height tidal stream and local weather to surrounding ships or back to the shore authority Buoys which can transmit an accurate position perhaps based on the DGPS corrections arriving on the SOTDMA data link as described earlier can be closely monitored to ensure that they are on station The information received ashore via the data link to the AtoN fitted with an AIS station can not only be used for performance monitoring but also for remotely changing the parameter s of an AtoN or switching on back up equipment at the AtoN site 8 3 4 1 AID TO NAVIGATION REPORT MESSAGE An AIS station mounted on an Aid to Navigation uses message number 21 The message should be transmitted autonomously at a reporting rate of once every three 3 minutes or it may be assigned another reporting rate by an Assigned Mode Command Message 16 via the VHF data link or by an external command It will also be programmed to transmit immediately after any parameter value changes Real synthetic and virtual AtoN AIS targets AIS messages for an aid to navigation may be generated from information derived from the aid itself and broadcast directly from the aid or may be broadcast from an AIS unit not located at the AtoN These should be referred to by the following terms Physical Aid to Navigation e AtoN AIS real
103. hat correct information is being broadcast by their own vessel particularly position heading provided by the ships master gyro and speed e IMO has two performance standards for GNSS equipment if used to provide position course and speed over ground to the AIS unit depending on whether the installation on board is pre or post July 2003 The differences between the two standards Res A 819 19 for pre 2003 and MSC 112 73 Annex 25 for post 2003 are considerable Under the new standards there is now a requirement for integrity monitoring interference rejection standards accuracy thresholds for position COG and SOG and a higher update display rate from 2s to 1s e The mariner must always remember that AIS is just one of the several tools available to a watchkeeper to fulfill their obligations under the Collision Regulations In summary AIS is a valuable navigational aid one of several on the bridge of a ship It can assist in the early appraisal and subsequent resolution of a close quarters situation or of a risk of collision Initially detection by AIS alone should be considered in the same way as detection by radar alone with particular caution being exercised until the AIS information has been verified by other means 76 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 ANNEX 1 IMO GUIDELINES FOR INSTALLATION OF SHIPBORNE AUTOMATIC IDENTIFICATION SYSTEM AIS
104. he colours and brightness should take into account the light conditions of daylight dusk and night The presentation should support night viewing by showing light foreground information on a dark non reflecting background at night 5 3 3 The background colour and contrast should be chosen to allow presented information to be easily discriminated without degrading the colour coding aspects of the presentation 5 4 Symbols 5 4 1 Symbols used for the presentation of operational information are defined in SN Circ 5 4 2 Symbols used for the display of charted information should comply with relevant IHO standards 5 5 Coding of information 5 5 1 When colour coding is used for discrimination or conspicuity of alphanumeric text symbols and other graphical information all colours in the set should clearly differ from one another 5 5 2 When colour coding is used the colour red should be used for coding of alarm related information 5 5 3 When colour coding is used it should be used in combination with other symbol attributes such as size shape and orientation 5 5 4 Flashing of information should be reserved for unacknowledged alarms 5 6 Integrity marking 5 6 1 The source validity and where possible the integrity of information should be indicated Invalid information or information with low integrity should be clearly marked qualitatively and or quantitatively Invalid information or information with low integrity may
105. he presentation of information should be clearly separated into an operational display area e g radar chart and one or more user dialogue areas e g menus data control functions 5 2 Readability 5 2 1 The presentation of alphanumeric data text symbols and other graphical information e g radar image should support readability from typical user positions under all ambient light conditions likely to be experienced on the bridge of a ship and with due consideration to the night vision of the officer of the watch 5 2 2 Alphanumeric data and text should be presented using a clearly legible non italic sans serif font The font size should be appropriate for the viewing distance from user positions likely to be experienced on the bridge of a ship 5 2 3 Text should be presented using simple unambiguous language that is easy to understand Navigation terms and abbreviations should be presented using the nomenclature defined in SN Circ 5 2 4 When icons are used their purpose should be intuitive by appearance placement and grouping 5 3 Colours and intensity 5 3 1 The colours used for the presentation of alphanumeric data text symbols and other graphical information should provide sufficient contrast against the background under all lighting conditions likely to be experienced on the bridge of a ship 101 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 5 3 2 T
106. hip mode to assist in collision avoidance e As a means for littoral states to obtain information about a ship and its cargo and e As a VTS tool i e ship to shore traffic management This functionality is further expanded in the performance standards to require the capability of e Operating in a number of modes An autonomous and continuous mode for operation in all areas This mode should be capable of being switched to from one of the following alternate modes by a competent authority An assigned mode for operation in an area subject to a competent authority responsible for traffic monitoring such that the data transmission interval and or time slots may be set remotely by that authority and A polling or controlled mode where the data transfer occurs in response to interrogation from a ship or competent authority e Providing information automatically and continuously to a competent authority and other ships without involvement of ship s personnel e Receiving and processing information from other sources including that from a competent authority and from other ships IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 e Responding to high priority and safety related calls with a minimum of delay and e Providing positional and manoeuvring information at a data rate adequate to facilitate accurate tracking by a competent authority and other ships 2 3 3 ITU
107. horities now need to consider the integration of AIS into their VTS system s As the previous paragraphs will have demonstrated the inclusion of AIS into a VTS system significantly enhances the precision and reliability with which AIS equipped vessels may be monitored and thus enhances safety AIS also has the potential to improve efficiency in vessel traffic and port management The degree to which this potential may be realised will vary depending on the operational circumstances It is for each VTS authority to make that assessment 4 2 OPERATION OF AN AIS IN A SRS AREA OR TSS AIS also assists vessels operating in a Ship Reporting System SRS area or Traffic Separation Scheme TSS while ensuring that shore authorities have the ability to easily identify vessels to automatically receive from them a wealth of useful information and to communicate with them using AIS Information received and transmitted through AIS enables shore authorities to better monitor and organise where such service is provided traffic in the particular area and to provide related information assistance or to transmit relevant instructions to the vessel VTS should electronically acknowledge vessel entry into AlS equipped areas to preclude voice queries about receipt of vessel s AIS data VTS or shore authorities have the ability to send either addressed or broadcast binary messages This function enables traffic related information to be exchanged wi
108. hort safety related messages In addition AIS will be beneficial to the safety of navigation and protection of the environment by monitoring the maritime traffic and by providing various basic services In particular AIS may use Binary Messages as a means for certain types of limited communication These messages will be dedicated to specific applications which must be approved by IMO 5 Binary Messages may be either Addressed Binary Messages or Broadcast Binary Messages Recommendation ITU RM 1371 specifies the technical characteristic and the structure of the binary messages The content is tailored to different applications IMO defines this content To avoid system overload the number of binary messages should be limited Therefore Binary messages should be approved only if there is a high operational need for them These messages have to be distinguished from Addressed Safety Related Messages and Broadcast Safety Related Messages both of which allow the exchange of format free ASCIl text 6 Binary Messages may provide a variety of capabilities for pre defined information packages For example they may permit ships to report information to other ships and shore stations shore stations to report navigation information conditions and warnings ship reporting to be simplified 7 Moreover binary messages may reduce verbal communications and enhance reliable information exchange and reduce operator s workload Binary Messages are
109. ic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 I I D GNSS EEN SS SS Position Clock VHF i VHF Differential i TDMA Decoding RX for TDMA Antenn ITU 823 optional 4 1 g SR TDMA Decoding RX for TDMA ERE IORS n RX for DSC configurable as sensors i Of H IEC61162 1 DSC Decoding CH 70 TEC 61162 3 lt bo external keyboard IEC61162 2 CH ang display TDMA Encoding IEC61162 2 2 pilot auxiliary DSC Encoding TX eauioment long range IEC61162 2 a interface BIIT Power Monitoring Supply Alarm circuits Power input NC relay HL HCH UU ore minimum keyboard display r ikeyboard display 7 I 1 The external keyboard display may be e g radar ECDIS or dedicated devices 2 The internal keyboard display may optionally be remote Figure 2 Schematic Diagram of Class A Ship borne AIS Station 7 4 COMMUNICATIONS REQUIREMENTS AIS must be able to operate autonomously in the ship ship mode everywhere and at all times Thus the ship borne AIS is required to simultaneously support both ship shore and ship ship modes when in a VTS or ship reporting area To meet this requirement and mitigate the effects of radio frequency interference since one channel may be jammed due to interference ship borne AIS stations are designed to operate on two frequency channels simultaneously In areas where AIS 1 and AIS 2 are not available the AIS standard
110. ic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 APPENDIX List of Standard Terms and Abbreviations Term Abbreviation Abbreviation Term Acknowledge ACK ACK Acknowledge Acquire Acquisition ACQ ACQ Acquire Acquisition Acquisition Zone AZ ADJ Adjust Adjustment Adjust Adjustment ADJ AFC Automatic Frequency Control Att AFT AFT Aft Alarm ALARM AGC Automatic Gain Control Altitude ALT AIS Automatic Identification System Amplitude Modulation AM ALARM Alarm Anchor Watch ANCH ALT Altitude Antenna ANT AM Amplitude Modulation Anti Clutter Rain RAIN ANCH Anchor Watch Anti Clutter Sea SEA ANCH Vessel at Anchor applies to AIS April APR ANT Antenna Audible AUD APR April August AUG AUD Audible Automatic AUTO AUG August Automatic Frequency Control AFC AUTO Automatic Automatic Gain Control AGC AUX Auxiliary System Function Automatic Identification System AIS AVAIL Available Auxiliary System Function AUX AZ Acquisition Zone Available AVAIL BITE Built in Test Equipment Background BKGND BKGND Background Bearing BRG BRG Bearing Bearing Waypoint To Waypoint BWW BRILL Brilliance Brilliance BRILL BWW Bearing Waypoint To Waypoint Built in Test Equipment BITE C Carried e g carried EBL origin Calibrate CAL C UP Seea Course Up Cancel CNC
111. idelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 ANNEX 4 DRAFT RECOMMENDATION ON PERFORMANCE STANDARDS FOR THE PRESENTATION OF NAVIGATION RELATED INFORMATION ON SHIPBORNE NAVIGATIONAL DISPLAYS 1 PURPOSE These performance standards harmonise the requirements for the presentation of navigation related information on the bridge of a ship to ensure that all navigational displays adopt a consistent human machine interface philosophy and implementation These performance standards supplement and in case of a conflict take priority over presentation requirements of the individual performance standards adopted by the Organization for relevant navigational systems and equipment and cover the presentation of navigation related information by equipment for which performance standards have not been adopted 2 SCOPE These performance standards specify the presentation of navigational information on the bridge of a ship including the consistent use of navigational terms abbreviations colours and symbols as well as other presentation characteristics These performance standards also address the presentation of navigation information related to specific navigational tasks by recognizing the use of user selected presentations in addition to presentations required by the individual performance standards adopted by the Organization 3 APPLICATION The general principles of these standards are appli
112. ification System AIS Volume 1 Part I Operational Issues Ed 1 3 FOREWORD IALA S ROLE IN THE DEVELOPMENT OF AIS STANDARDS The International Association of Marine Aids to Navigation and Lighthouse Authorities IALA has been the primary organisation sponsoring and co ordinating the development of the Automatic Identification System AIS In 1996 the Vessel Traffic Services VTS and Radionavigation Committees RNAV of IALA prepared a draft recommendation that with further refinement within IMO NAV became the basis for the IMO Performance Standard on AIS In October 1997 at the request of several emerging AIS equipment manufacturers IALA hosted a working group of manufacturers and maritime administrations to agree on a standard technology for AIS stations The group which was formally designated the IALA AIS Working Group completed a draft recommendation which was submitted by Sweden on behalf of Finland Germany Canada South Africa and the United States to the International Telecommunications Union Sector for Radiocommunications ITU R Renamed the IALA AIS Steering Group this body met twice yearly under the auspices of IALA to continue the development of system standards and applications as well as the IALA Guidelines on the Automatic Identification System AIS a significant project in itself In view of the international significance of the implementation of AIS the IALA Council at its December 1999 meetin
113. in Source ID MMSI of the base station Spare Spare Should be set to zero Longitude Surveyed Longitude of DGNSS reference station in 1 10 min 180 degrees East positive West negative If interrogated and differential correction service not available the longitude should be set to 181 Latitude Surveyed Latitude of DGNSS reference station in 1 10 min 90 degrees North positive South negative If interrogated and differential correction service not available the latitude should be set to 91 Data Differential Correction data drawn from Recommendation ITU R M 823 2 If interrogated and differential correction service not available the data field should remain empty zero bits This should be interpreted by the recipient as DGNSS Data Words set to zero Table 15 GNSS Broadcast Binary Message 8 3 4 AID TO NAVIGATION MESSAGE The main functions of aids to navigation AtoN such as racons buoys beacons and lights are to mark the location of reference points and to identify and mark hazards However suitably equipped they could provide additional information of a meteorological and or hydrological nature that can be of benefit to the mariner In addition information on the operational status of the aid which is of value both to the mariner and the service provider could be provided 54 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Throu
114. ind gust Wind gust is the maximum wind speed value reading during the last 10 minutes O 120 kts 1 kt Wind direction 9 0 359 degrees 1 degree Wees gust direction 9 Jo 359 degrees 1 degree Air temperature 11 Dry bulb temperature 60 0 to 60 0 degrees Celsius 0 1 of a degree Relative humidit 0 100 1 Dew pomi J o J200 500 degrees 0T dear Rirpressore f eem Ve Air pressure tendency 2 Ss steady 1 decreasing 2 increasing Horizontal Horizontal visibility 8 f 0 25 0 NM 0 1 NM Water level incl tide EE Deviation from local chart datum 10 0 to 30 0 m 0 1m Water level trend 2 0 steady 1 decreasing 2 increasing Surface current speed incl 0 0 25 0 kts 0 1 kt tide Surface current direction 9 0 359 degrees 1 degree Current speed 2 8 Current measured at a chosen level below the sea surface 0 0 25 0 kts 0 1 kt Current direction 2 0 359 degrees 1 degree Current measuring level 2 i Measuring level in m below sea surface 0 20 m Currentspeed 3 8 Io e 25 0 knots 0 1 knot EE direction 3 9 0 359 degrees 1 degree Current measuring level 3 Le ee Measuring level in m below sea surface 0 30 m EE e o0 a50m 07 m Wao Period in seconds 0 60 s 1 s Wave drecion 90 359 degres 1 degree Swain e oomo Swell period fll Period in seconds 0 60 s 1 s Swelldrecion o 0 350 degrees degree According t
115. ines for the onboard operational use of shipborne Automatic Identification Systems AIS Resolution A 917 22 amended by Resolution A 956 23 IMO Interim Guidelines for the presentation and display of AIS target information SN Circ 217 of 11 July 2001 IMO Guidelines for Installation of Shipborne AIS SN Circ 227 IMO Recommendation for the Protection of the AIS Datalink MSC 140 76 IMO Performance Standards for the presentation of navigation related information on shipborne navigational displays NAV 50 19 Annex 6 IMO Guidelines for the presentation of navigation related symbols terms and abbreviations NAV 50 19 Annex 7 ITU Radio Regulations Appendix S18 Table of Transmitting Frequencies in the VHF Maritime Mobile Band ITU Recommendation on the Technical Characteristics for a Ship borne Automatic Identification System AIS Using Time Division Multiple Access in the Maritime Mobile Band ITU R M 1371 1 IEC Standard 61993 Part 2 Class A Ship borne equipment of the Universal Automatic Identification System AIS Operational and Performance requirements methods of testing and required test results IALA Guidelines On The Automatic Identification System AIS e Volume 1 Part Operational Issues e Volume 1 Part 2 Technical Issues e JALA Technical Clarifications on ITU Recommendation ITU R M 1371 1 Edition 1 4 IALA Recommendation A 123 on the Provision Of Shore Based Automatic Identification Systems AIS
116. ines have been prepared for IALA members particularly the Authorities and are updated as standards and functions evolve The maritime industry as a whole is in need of a reference work that educates orients and facilitates as AIS is implemented The AIS journey has just begun but IALA AIS Guidelines version 1 2 September 2003 is already superseded by this version 1 3 with substantial amounts of new information Subsequent versions will benefit from continuing technological advances and lessons learned from implementation Users are welcome to join the process and contribute to Guideline content communicating via the IALA web site www iala aism org Any version of the IALA AIS Guidelines is a snapshot of the present state of play Attempts are made throughout however to look into the future AIS Guidelines will remain a dynamic document subject to as frequent a revision as issues dictate Every development will be evaluated for inclusion into the Guidelines ensuring they remain a the most current reference document on AIS 1 2 PURPOSE The IALA AIS Guidelines provide a one stop information source for both operational and technical aspects of AIS and cover an increasingly wide range of ship and shore based applications Such guidance also aims to serve as inspiration and motivation to make full use of AIS achieving efficiency and effectiveness supporting maritime productivity safety and environmental protection This guida
117. ion System AIS Volume 1 Part I Operational Issues Ed 1 3 4 1 2 3 Availability of VHF communication channels Two maritime VHF channels have been allocated by the ITU for the international use of AIS in its primary ship to ship mode What is not yet certain is whether additional local channels will need to be allocated to support the operation of VTS within certain congested VTS environments The need for such additional channels will be at its most acute where large numbers of vessels navigate within a VTS area and where the VTS centre has a particular interest in deriving vessel identity at maximum range As has been described previously AIS in an overload situation will progressively disregard AIS signals received from the extremity of an area before those emanating from vessels or craft close to the receiving station 4 1 2 4 Availability of national regional ocal DGNSS corrections In order to monitor vessel navigation with the better than 10 metre accuracy potentially possible a reliable DGNSS correction signal will need to be made available to all vessels throughout the VTS area Such services are provided nationally or regionally in some areas Where such a service does not exist a VTS authority may consider providing these corrections itself It is technically possible to transmit the relevant corrections using the AIS itself 4 1 3 OTHER ISSUES TO BE TAKEN INTO CONSIDERATION 4 1 3 1 Integration of AIS into existing ra
118. ion can then be broadcast as required e A sensor can be co located with an AtoN equipped with AIS The AlS unit can then be used to broadcast both the AtoN information and meteorological and or hydrological information using separate messages The information to be broadcast will depend on the operational requirement and the availability of measuring and processing equipment Examples include e Wind speed average and gust values e Wind direction e Water level e Water temperature e Air temperature e Current speed and direction on different depths e Tidal information Such data permits the presentation of real time information at receiving stations including onboard ships within VHF range 4 1 5 3 SILENT VTS The AIS allows silent and automatic exchange of information with other vessels and VTS centres leaving port operation VHF channels available for safety purposes and emergency situations Thus AIS reduces the workload on the bridge of the vessel and also in the VTS centre In ports where the density of the traffic is low the AIS fitted vessels may form their own Silent VTS without any shore station In busy ports AIS will reduce the VTS operators workload and allow them to increase their efficiency in traffic management information services and other tasks 4 1 5 4 Archiving data The automatic availability within a VTS centre of AIS data for each vessel facilitates the rapid and comprehensive recording replay an
119. is applied to the content of ship data messages static and voyage related to ensure that the more important message data being communicated is not encumbered with static or low priority information Static information is entered into the AIS on installation and need only be changed if the ship changes its name or undergoes a major conversion Dynamic information is automatically updated from the ship sensors connected to AIS Voyage related information is manually entered and updated during the voyage Short safety related messages are sent as required and are therefore specific to events or incidents The ship information to be provided within the various AIS messages includes e Static information Every 6 minutes and on request by a competent authority MMSI Maritime Mobile Service Identity Set on installation note that this might need amending if the ship changes ownership Call sign and name Set on installation note that this might need amending if the ship changes ownership IMO Number Set on installation Location of position fixing antenna Set on installation or may be changed for bi directional vessels or those fitted with multiple position fix antennae Ship s position with accuracy Automatically updated from the position sensor connected to the indication and integrity status Als The accuracy indication is for better or worse than 10 m Position Time stamp in UTC Automatically updated fr
120. isplay used to graphically present Past positions Sleeping AIS target Selected target Standard Display Trial manoeuvre User Dialog Area chart and radar information excluding the user dialog area On the chart display this is the area of the chart presentation On the radar display this is the area encompassing the radar image Equally time spaced past position marks of a tracked or reported target and own ship The co ordinates used to display past positions may be either relative or true A target indicating the presence and orientation of a vessel equipped with AIS in a certain location The target is displayed by a sleeping target symbol No additional information is presented until activated A target selected manually for the display of detailed alphanumeric information in a separate data display area The target is displayed by a selected target symbol The level of information that should be shown when a chart is first displayed on ECDIS The level of the information it provides for route planning or route monitoring may be modified by the mariner according to the mariner s needs Facility used to assist the operator to perform a proposed manoeuvre for navigation and collision avoidance purposes by displaying the predicted future status of all tracked and AIS targets as a result of own ships simulated manoeuvres An area of the display consisting of data fields and or menus that is allocated to th
121. lable default Value of Quantity of Main 10 0 not available default 1 1023 value of quantity Dangerous Good Unit of Quantity of Main 2 0 not available default Dangerous Good 1 in kg 2 in tons 10E3 kg 3 in 1 000 tons 10 E 6 kg Spare 3 Not used Should be set to zero Total Number of bits 360 Occupies 2 slots Purpose This message should be used as a respond on a request for Dangerous Cargo Indication from a competent authority The message content is essential to identify that harbour where the necessary documents for the dangerous goods cargo can be found e g last and next port of call The indication of main dangerous goods and its quantity gives at least an estimation of a potential danger Intended Application The data are for use of a competent authority only Attributes of message addressed ship transmitting no acknowledgement 93 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 APPLICATION 3 Message FAIRWAY CLOSED Parameter_ _No of Bits eessen Wesen J e oir ornssageScamays 8 Spare Not used Should be set to zero IAI DAC 001 Fl 13 Reason for closing Maximum 20 characters 6 bit ASCII EE not available default Location of closing from Maximum 20 characters 6 bit ASCII C G G EE not available default E of closing Maximum 20 characters 6 bit ASCII ee ee oe not available de
122. ltiple navigation systems and equipment the presentation of alarms and indications should be consistent for the display of the time of alarm occurrence the cause of the alarm the source of the alarm and the status of the alarm e g acknowledged not acknowledged 5 8 Presentation modes If displays are capable of presenting information in different mode s there should be a clear indication of the mode in use for example orientation stabilization motion and chart projection 5 9 User manuals The user manual and operator instructions should be available in the English language The user manual or reference guide should include a list of all terms abbreviations and symbols and their explanations presented by the equipment 6 PRESENTATION OF OPERATIONAL INFORMATION 6 1 Presentation of own ship information 103 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 6 1 1 When a graphical representation of own ship is provided it should be possible for the user to select either a scaled ship s outline or a simplified symbol as specified in SN Circ The size of the ship s outline or the simplified symbol in the graphical presentation should be the true scale size of the ship or 6 mm whichever is greater 6 1 2 A heading line and where appropriate a velocity vector should be associated with own ship symbol and should originate at the position of the consistent common
123. may give a stronger radar echo because of the higher superstructure of the ship It may therefore be difficult to instantaneously decide from its raw radar presentation alone the actual direction of a manoeuvre by another vessel Indeed the instantaneous assessment may be misleading and dangerous if acted upon 9 1 5 Tracked Radar Targets The radar track of a vessel is usually smoothed by a filtering process to remove the deviations caused by the alterations of reflectivity pitch roll and yaw This process reduces true positional accuracy and creates a display delay In the case of a course alteration it may take 5 10 antenna rotations to determine a target vessel s movement If the radar plot position of a target vessel is aft of its true centre of rotation this may also produce a false indication of the target ship s direction of turn 9 1 6 ARPA ATA The limitations of automatic radar plotting aids ARPA and automatic tracking aids ATA are apparent from the IMO Performance standards It should be noted that the inaccuracies mentioned therein refer to a movement on an unmodified course for one to three minutes For course alterations there is no specification at all 9 1 7 AIS Performance AIS broadcasts the identity position heading course over ground COG speed over ground SOG and certain other relevant ship data at an update rate dependent upon the ship s speed or rate of turn during course alterations Its per
124. n data is amended or on request Ship s draught To be manually entered at the start of the voyage using the maximum draft for the voyage and amended as required e g after de ballasting prior to port entry Hazardous cargo type As required by competent authority To be manually entered at the start of the voyage confirming whether or not hazardous cargo is being carried namely DG Dangerous Goods HS Harmful Substances MP Marine Pollutants Indications of quantities are not required Destination and ETA At Master s discretion To be manually entered at the start of the voyage and kept up to date as necessary Table 5 Static Dynamic Voyage Related Information Short safety related messages Free format short text messages would be manually entered and addressed either to a specific addressee a selected group of addressees or broadcast to all ships and shore stations Table 6 Short Safety related messages 8 2 STANDARD MESSAGE FORMATS The information to be transferred between ships and between ship and shore is packaged into a series of standard formatted messages and transmitted at pre determined intervals and immediately when their content data is amended or on request by a competent authority There are some 22 different types of messages included in the AIS Technical Standard ITU R M 1371 1 These messages not only contain details of transmitted information but serve various other system or data link functi
125. n itself Each branch international and each region has 64 different identifiers available for specific applications Each branch can group its 64 identifiers into specific categories of applications For the IAI the following groups have been defined General Usage Gen Vessel Traffic Services VTS Aids to Navigation A to N Search and Rescue SAR The allocation and maintenance of function identifiers as part of the IAI will be done by IALA in accordance with ITU R M 1371 1 recommendation 3 which will also publish them and submit them to IMO and ITU For the Regional Application Identifier RAI at least two groups must be defined e Regional or national public applications e Regional or national private organisations applications A local competent authority located in this DAC and following the guidelines as described in the ITU R Recommendation M 1371 1 will do the allocation and maintenance of function identifiers as part of the RAI Binary messages can occupy 1 to 5 slots depending on the amount of application specific data and are defined as follows two numbers are given first in data bytes second if the binary message is used for sending 6 bit ASCII characters 59 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Number of Addressed Binary Binary Broadcast slots Message Message 6 Message Message 8 1 8 8 12 14 2 36
126. nce keeps ship to ship safety as its primary objective The purpose of Volume 1 Part 1 is operational guidance written from the users point of view The range of users extends from competent authorities to Officers of the Watch OOW pilots VTS Operators managers and students IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 The purpose of Volume 1 Part 2 is technical guidance and description including ship borne and shore based devices e g Vessel Traffic Services VTS Ship Reporting Systems SRS and Aids to Navigation AtoN This part does not intend to compete with technical manuals needed for system design installation or maintenance 1 3 BACKGROUND This section describes the international requirements and process that enabled AIS to become a shipboard carriage requirement under the revised Chapter V of the International Convention for the Safety of Life at Sea 1974 as amended SOLAS 74 SOLAS Chapter V Regulation 19 section 2 4 states inter alia All ships of 300 gross tonnage and upwards engaged on international voyages and cargo ships of 500 gross tonnage not engaged on international voyages and passenger ships irrespective of size shall be fitted with AIS at the latest by 31 December 2004 It also explains the basis for carriage by ships not covered by SOLAS 74 e g fishing vessels and pleasure craft and as an aid to navigation device which would enh
127. ndefined default Position Fixing Device 1 GPS 2 GLONASS 3 Combined GPS GLONASS 4 Loran C 5 Chayka 6 Integrated Navigation System 7 Surveyed For fixed AtoNs and vitual synthetic AtoNs the surveyed position should be used The accurate position enhances its function as a radar reference target 8 15 not used Time Stamp UTC second when the report was generated by the EPFS 0 59 or 60 if time stamp is not available which should also be the default value or 61 if positioning system is in manual input mode or 62 if Electronic Position Fixing System operates in estimated dead 56 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Parameter Description reckoning mode or 63 if the positioning system is inoperative Off Position Indicator For floating Aids to Navigation only 0 on position 1 off position NOTE This flag should only be considered valid by receiving station if the Aid to Navigation is a floating aid and if Time Stamp is equal to or below 59 For floating AtoN the guard zone parameters should be set on installation Reserved for regional Reserved for definition by a competent regional or local authority Should or local application be set to zero if not used for any regional or local application Regional applications should not use zero RAIM Flag RAIM Receiver Autonomous Integrity Monitoring fla
128. nditions and the operational status of aids to navigation e Data on the traffic situation such as vessel positions movements identities and intentions with respect to manoeuvres destination and routing e Data on vessels in accordance with the requirements of ship reporting and if necessary any additional data required for effective VTS operations 4 1 2 INSTALLATION OF AIS INTO A VTS 4 1 2 1 Number location of base stations repeaters In deciding the size and thus cost of integrating AIS into a VTS system a careful study needs to be undertaken to establish practically the number and location of base and repeater stations required to achieve full and reliable coverage of the region and the expected traffic load Although VHF reception is greatly influenced by antenna location and height operation in a noisy electronic environment may necessitate the installation of additional base stations in order to reduce vulnerability to interference 4 1 2 2 Interoperability with adjacent VTS Where it proves necessary to use more than one centre or where a VTS authority involves more than one VTS centre the method of connecting the component elements into a local network needs to be given careful consideration In particular the existence of or plans for a regional network may necessitate using a local networking solution which is compatible with national and international networks 25 IALA Guidelines on Automatic Identificat
129. ness of all displayed information There should be independent means to adjust the brightness of groups of displayed graphics and alphanumeric data The brilliance of the heading line should not be variable to extinction 7 2 2 Display of chart information on radar 109 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 7 2 2 1 Vector chart information may be displayed on a radar presentation This should be accomplished using layers selected from the chart database As a minimum the elements of the ECDIS Standard Display should be available for individual selection by category or layer but not as individual objects As far as practical chart information should be presented in accordance with the ECDIS performance standards and with these presentation standards 7 2 2 2 If chart information is displayed within the operational display area the display of radar information should have priority The chart information should be clearly perceptible as such The chart information should not substantially degrade mask or obscure the radar video tracked radar targets and AIS targets 7 2 2 3 When chart information is displayed there should be a permanent indication of its status Source and update information should also be made available 7 2 3 Display of maps on radar Map graphics may be displayed but should not substantially degrade mask or obscure the radar video tracked radar
130. nt to the user and will have little impact on international shipping and the operation of AIS 7 4 2 CHANNEL MANAGEMENT WRC 97 and ITU R M 1371 1 both specified that the two frequencies for AIS use on the high seas and any regional frequencies designated by administrations are to be from within the VHF maritime band as defined in Appendix S18 of the International Radio Regulations As mentioned the WRC 97 also provided for the use of 12 5 kHz narrowband for AIS where administrations might need it due to lack of channel availability However in practice the 12 5kHz channel separation has not been implemented In order to facilitate the full use of the frequency band and to enable automatic frequency channel switching for ships and shore stations the AIS standard utilises Digital Selective Calling DSC The standard refers to this as channel management The new AIS standard also provides for TDMA channel management via DSC and limited polling via DSC AIS channel switching is accomplished when the shore stations switch ships AIS stations to VTS AIS designated working frequencies or regional frequencies Switching of frequencies can be done in several ways these include automatic switching by the shore base stations or manual switching by the AIS operator on the ship In addition switching from shore can be performed by a VTS base station using SOTDMA protocols or by a GMDSS A1 Area station using DSC 7 5 LONG RANGE MODE 7 5 1
131. ntenna position one for external and one for an internal sensor If more than one external reference point is used the appropriate information needs to be input to the AIS to adjust reference point information 5 3 HEADING A compass providing heading information is a mandatory sensor input to the AIS A converter unit e g stepper to NMEA will be needed to connect AIS if the ship s compass does not provide an IEC 61162 output Some ships of less than 500 gross tonnage may not carry a compass providing heading information 5 4 RATE OF TURN All ships may not carry a Rate Of Turn ROT Indicator according to resolution A 526 13 However if a rate of turn indicator is available and it includes an IEC 61162 interface it should be connected to the AIS If ROT information is not available from a ROT indicator the direction of turn may optionally be derived from heading information through e the compass itself e an external converter unit see paragraph on Heading above e the AIS itself see Annex A 5 5 NAVIGATIONAL STATUS A simple means should be provided for the operator to input the ship s navigational status e g underway using engine at anchor not under command restricted in ability to maneuver etc information into the AIS The AIS may be connected to the ship s navigational status lights 6 STATIC INFORMATION The AIS standards require that certain static voyage related and dynamic information be entered
132. o Beaufort scale manual input 0 to 12 1 Water temperature 10 10 0 50 0 degrees 0 1 degree Precipitation type 3 According to WMO a 9 0 0 50 0 o 0 1 SL Yes No Total Number of bits Occupies 2 slots 91 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Purpose This message allows the distribution of meteorological and hydrological information Should there be no positional information or time of measurement this message should not be transmitted If there is no data available default value to be transmitted is the highest available binary value for that particular data field It is to be displayed as not available not 9999 or zero or similar This message takes 2 slots Not all the information specified in the tables will be available at all stations The interval between the broadcasting of this message should not exceed 12 minutes Attribute of message broadcast shore station transmitting no acknowledgement required 92 IALA Guidelin es on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 APPLICATION 2 Message DANGEROUS CARGO INDICATION Parameter No bits Description Message ID 6 Identifier for Message 6 always 6 Repeat Indicator 2 Used by the repeater to indicate how many times a message has
133. o Where the aid is equipped with an AIS Station designed to generate the appropriate AIS messages using local data from the aid A real AtoN AIS transmits Message 21 e Synthetic AIS o Where the AIS message for the AtoN is transmitted from another location and the AtoN is physically located at the position given in the AIS message Non Physical Aid to Navigation e Virtual AtoN AIS Where the AIS message is an aids to navigation message but no real aid exists at the location indicated in the AIS message The following AIS messages as defined by ITU may be applied to AIS for aids to navigation e Message 21 Aids To Navigation Message o Sent for use by vessels within range and by VTS centres e Message 14 Safety Related Text Message o May be sent if a buoy moves off station or if the aid malfunctions in a manner as to cause its signal s to be in error 55 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 o Note that this message could be sent automatically from an AIS unit on the buoy or could be sent from a shore base station based on information received from the buoy The latter system might be employed if human intervention prior to sending Message 14 is required otherwise it is likely to be more reliable for the buoy AIS unit to send it e Message 8 Binary broadcast message as approved for international or regional use for example o Weather wave tide sea data o
134. odulation ensures that the effective radio cell range size for each AIS station slowly decreases Transmissions from AIS stations farthest away are suppressed giving priority to those closer to the receiving station The overall effect is that as a channel approaches an overloaded state the TDMA algorithm produces a progressive reduction of the radio cell size The effect is to drop AIS reports from vessels farthest from the centre of operations while maintaining the integrity of the more important closer range reports However when using 12 5 kHz channels the communication range is reduced The size of the radio cell in the 12 5 kHz channel in an overload situation shrinks to approximately one half the size compared to that in the 25 kHz channel This effect has to be taken into consideration when planning 12 5 kHz channel areas 37 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 7 2 REQUIRED UPDATE RATES The IMO Performance Standards and the IMO liaison statement to ITU R provide the type of data to be exchanged The IALA VTS Committee studied this problem with regard to potential VTS Ship Reporting System requirements Considerations were based on current radar techniques timing of consecutive GNSS position fixes and finally the worst case scenario of peak traffic situations in the Singapore and Dover Straits Using a theoretical maximum VHF radio range of 40 NM an
135. of 1988 relating to the International Convention for the Safety of Life at Sea 1974 as amended 2 DOCUMENTATION For the AIS installation the following drawings shall be submitted e Antenna layout e AIS arrangement drawing e Block diagram interconnection diagram An initial installation configuration report should be produced during installation and kept on board 3 AIS INSTALLATION 3 1 INTERFERENCE TO THE SHIP S VHF RADIOTELEPHONE The AIS ship borne equipment like any other ship borne transceiver operating in the VHF maritime band may cause interference to a ship s VHF radiotelephone Because AlS is a digital system this interference may occur as a periodic e g every 20 second soft clicking sound on a ship s radiotelephone This affect may become more noticeable when the VHF radiotelephone antenna is located near the AIS VHF 77 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 antenna and when the radiotelephone is operating on channels near the AIS operating channels e g channels 27 28 and 86 Attention should be paid to the location and installation of different antennas in order to obtain the best possible efficiency Special attention should be paid to the installation of mandatory antennas like the AIS antennas 3 2 VHF ANTENNA INSTALLATION 3 2 1 Location Location of the mandatory AIS VHF antenna should be carefully considered Digital communica
136. of better than 10 us Each station determines its own transmission schedule slot allocation based upon data link traffic history and knowledge of future actions by other stations An AIS message can occupy up to five 5 consecutive time slots 36 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Each time slot represents 26 6 milliseconds UTT DUT The AIS of ship A sends the position The same procedure is repeated by all other AIS equipped ships message in one time slot At the same time it reserves another time slot for the next position message Ship A Figure 1 Principles of ITIDMA 7 1 1 VHF DATA LINK VDL CAPACITY AIS can use both 25 kHz and 12 5 kHz simplex channel bandwidths When operating with either of these bandwidths the resulting capacity is 2250 slots minute at a transmission rate of 9600 bits per second When both AIS channels AIS 1 AIS 2 are used the reporting capacity is 2 times 2250 i e 4500 slots minute As the system operates in the maritime VHF radio band it is capable of communicating within line of sight Should the number of AIS stations within the line of sight range of a receiving AIS station exceed the frame capacity in terms of reports per minute the SOTDMA algorithm and the GMSK FM m
137. of the abbreviations SIM and TRIAL are not intended to replace the appropriate symbols listed in Annex 1 5 The term Course Made Good has been used in the past to describe Track Made Good This is a misnomer in that courses are directions steered or intended to be steered with respect to a reference meridian Track Made Good is preferred over the use of Course Made Good 6 Where information is presented using SI units the respective abbreviations should be used 130 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 131
138. of the activated target An isosceles acute angled triangle should be used The triangle should be oriented by heading or COG if heading missing The reported position should be located at centre and half the height of the triangle The COG SOG vector should be displayed as a dashed line with short dashes with spaces approximately twice the line width Optionally time increments may be marked along the vector The heading should be displayed as a solid line thinner than speed vector line style length twice of the length of the triangle symbol Origin of the heading line is the apex of the triangle The turn should be indicated by a flag of fixed length added to the heading line A path predictor may be provided as curved vector For a Dangerous AIS Target bold red on color display solid triangle with course and speed vector flashing until acknowledged A true scale outline may be added to the triangle symbol It should be Located relative to reported position and according to reported position offsets beam and length Oriented along target s heading Used on low ranges large scales A square indicated by its corners should be drawn around the activated target symbol Triangle with bold solid cross The triangle should be oriented per last known value The cross should have a fixed orientation The symbol should flash until acknowledged The target should be displayed without vector heading and rate of
139. om ship s main position sensor connected to AIS e g GPS Course over ground COG Automatically updated from ship s main position sensor connected to the AIS provided that sensor calculates COG This information might not be available Speed over ground SOG Automatically updated from the position sensor connected to the AIS provided that the sensor calculates SOG This information might not be available Heading Automatically updated from the ship s heading sensor connected to the AIS 44 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Navigational status Navigational status information has to be manually entered by the OOW and changed as necessary for example underway by engines at anchor not under command NUC restricted in ability to manoeuvre RIATM moored constrained by draught aground engaged in fishing underway by sail In practice since all these relate to the COLREGS any change that is needed could be undertaken at the same time that the lights or shapes were changed Rate of turn ROT Automatically updated from the ship s ROT sensor or derived from the gyrocompass This information might not be available Note Provision must be made for inputs from external sensors giving additional information where available e g angle of heel pitch and roll etc e Voyage related information Every 6 minutes whe
140. ommunication State SOTDMA ITDMA Communication State Table 9 Base Station Report message 1 2 amp 3 Content and Format 48 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 8 2 3 Static and Voyage Related Data This message is only used by Class A ship borne mobile equipment when reporting static or voyage related data As well as being transmitted routinely at six minute intervals or in response to a polling request this message will also be sent immediately after an Parameter arameter value has been changed Description Message ID Repeat Indicator User ID AIS Version Indicator IMO number Call sign Identifier for this message 5 Used by the repeater to indicate how many times a message has been repeated 0 3 default 0 3 do not repeat again MMSI number 0 Station compliant with AIS Edition 0 Rec ITU R M 1371 1 1 3 Station compliant with future AIS Editions 1 2 and 3 1 999999999 0 not available default 7 x 6 bit ASCII characters not available default Name Ship Type of ship and cargo type Dimension Reference for Position Maximum 20 characters 6 bit ASCII not available default 0 not available or no ship default 1 99 as defined in Table 11 100 199 reserved for regional use 200 255 reserved for future use Reference point for r
141. ons including message acknowledgement interrogation assignments or management commands 45 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Further description of these message types and functions is included in Part 2 of these Guidelines Technical with full details of message structures given in ITU R M 1371 1 The following listing Table 7 shows the primary message grouping of interest to the operators of AIS and indicates the operational modes associated with each message AU autonomous AS assigned IN polling interrogation Further description of the more relevant messages is provided in the following paragraphs Message Description Operation Identifiers Mode 1 2 3 Position Report scheduled assigned or response to polling AU AS 4 Base Station Report position UTC date and current slot number AS 5 Static and Voyage Related Data Class A SME AU AS 6 7 8 Binary Messages addressed acknowledge or broadcast AU AS IN 9 Standard SAR Aircraft Position Report AU AS 10 11 UTC Date enquiry and response AS IN 12 13 14 Safety Related Message addressed acknowledge or broadcast AS IN 15 Interrogation request for specific message type AU AS IN 16 Assignment Mode Command by competent authority AS 17 DGNSS Broadcast Binary Message AS 18 19 Class B SME Position Report standard and extended reports AU AS
142. or pollutant category D 5 See Table 12 below 5 reserved for future use 6 Passenger ships 6 reserved for future use 7 Cargo ships 7 reserved for future use 8 Tankers 8 reserved for future use 9 Other types of ship 9 No additional Information This formatter requires two digits The first is any digit from the column on the left the second is any digit from the column on the right DG Dangerous Goods HS Harmful Substances MP Marine Pollutants Table 11 Ship Type Identifiers Identifier No Identifiers Used by Special Craft to Report Their Type Pilot vessel Search and rescue vessels Law enforcement vessels Spare for assignments to local vessels Spare for assignments to local vessels 5 5 Medical transports as defined in the 1949 Geneva Conventions and Additional Protocols 5 9 Ships according to Resolution No 18 Mob 83 Table 12 Special Craft 50 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Identifier No Identifiers Used by Other Ships to Report Their Type 3 0 Fishing a 2 Toning nana ote tow exceeds 20 mor treadin exceeds zsm e 4 eones e e eoon SECHS Table 13 Other Ships g w g w 3 efe efe 8 2 4 EXTENDED STATIC AND VOYAGE RELATED DATA Additional information for example height over keel static and number of persons on board
143. or the ECDIS presentation see 7 3 by a single operator action 7 1 2 If aradar image and an electronic chart are displayed together the chart and the radar image should use a consistent common reference point and match in scale projection and orientation Any offset should be indicated 7 1 3 Range scales of 0 25 0 5 0 75 1 5 3 6 12 and 24 NM should be provided Additional range scales are permitted These range scales do not apply when presenting raster chart data The range scale should be permanently indicated 7 1 4 When range rings are displayed the range ring scale should be indicated 7 1 5 No part of the operational display area should be permanently used for presentation of information that is not part of the navigation presentation e g pop up displays drop down menus and information windows Temporary limited and relevant alphanumeric data may be displayed adjacent to a selected symbol graphic or target within the operational display area 7 2 Radar display 7 2 1 General 7 2 1 1 Radar video tracked radar targets and AIS targets should not be substantially degraded masked or obscured by other presented information 7 2 1 2 It should be possible to temporarily suppress all graphical information from the display retaining only radar video and trails 7 2 1 3 The brightness of radar echoes and associated graphic symbols for tracked radar targets should be variable It should be possible to control the bright
144. osition and its quality calculated range of target calculated bearing of target CPA TCPA COG SOG navigational status Ship s heading and rate of turn should also be made available Additional target information should be provided on request 106 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 6 3 6 5 If the received AIS information is incomplete the absent information should be clearly indicated in the target data field as missing 6 3 6 6 The data should be displayed and continually updated until another target is selected for data display or until the window is closed 6 3 6 7 Means should be provided to present own ship AIS data on request 6 3 6 8 The alphanumeric displayed data should not obscure graphically presented operational information 6 3 7 Operational alarms 6 3 7 1 A clear indication of the status of the alarms and of the alarm criteria should be given 6 3 7 2 A CPA TCPA alarm of a tracked radar or activated AIS target should be clearly indicated and the target should be clearly marked by a dangerous target symbol 6 3 7 3 If a user defined acquisition activation zone facility is provided a target entering the zone should be clearly identified with the relevant symbol and for tracked radar targets an alarm should be given The zone should be identified with the relevant symbology and should be applicable to tracked radar and AIS targets 6 3 7 4
145. other vessels in the vicinity e The onboard AIS has a pilot auxiliary input output port which provides the facility to forward the own vessel s GNSS DGNSS information heading and rate of turn optional continuously independently of i e faster than the standard AIS reporting rate The pilot will receive all other AIS information at the standard rate This allows pilots to plug in their own pilot portable workstation to the onboard AIS in order to receive more frequent own ship navigation information In addition the pilot port provides the pilot the facility to forward information to other vessels in the vicinity or to the local VTS When installing the AIS there should be connectivity to the AIS pilot port from those locations at which the pilot would use his workstation see Chapter 11 In addition power supply should be available at the same location s As an example from July 1 2003 the Authorities in the Panama Canal require the pilot plug to be fitted according to the relevant IMO Guidelines on all vessels transiting the Canal For those ships that do not comply with this requirement an extra charge will be levied for providing portable AIS equipment which will be supply by the Authorities 74 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 11 INSTALLATION OF AIS ON BOARD Guidelines are needed to assist installers in the safe and effective installation of onboard AI
146. oyage related data such as draught type of hazardous cargo destination and ETA properly at the beginning of each voyage and whenever changes occur Navigators should be aware of the limitations of AIS In particular government agencies and owners should ensure that watch keeping officers are trained in the use of AIS and are aware of its limitations A key aspect is the use of GNSS receiver equipment to provide position course and speed over ground to the AIS unit with defined resolution IMO has two performance standards for GNSS equipment depending on whether the installation on board is pre or post July 2003 The differences between the two standards Res A 819 19 for pre 2003 and MSC 112 73 Annex 25 for post 2003 are considerable Under the new standards there is now a requirement for integrity monitoring interference rejection standards accuracy thresholds for position COG and SOG and a higher update display rate from 2s to 1s As another example both Horizontal Dilution of Precision HDOP and Position Dilution of Precision PDOP cannot be improved by differential corrections The mariner must always remember that AIS is just one of the several tools available to a watchkeeper to fulfill their obligations under the Collision Regulations 3 4 OPERATION ON BOARD IN A COASTAL AREA SHIP REPORTING SYSTEM SRS AREA OR EXCLUSIVE ECONOMIC ZONE EEZ AIS allows shore authorities to monitor vessels operating within th
147. pendix 1 2 The Sub Committee on Safety of Navigation at its forty ninth session 30 June to 4 July 2003 selected seven 7 binary messages as shown in appendix 2 to this annex to be used as a trial set of messages The idea is to use this set of 7 messages for a trial period of 4 years with no change It should be noted that 4 additional system related messages identified in Recommendation ITU R M 1371 are needed for the operation of the system 3 The criteria for selecting the 7 trial messages were A demonstrated operational need 2 a cross section of users including ships VTS pilots and port authorities and 3 messages already developed for format and content 4 In addition messages were limited to a maximum number of 3 slots to reduce the potential for overloading the AIS frequencies designated for IMO 5 In addition to these 7 messages and 4 system related messages the Sub Committee agreed to allow 2 additional messages in the 4 year trial period to test the process of introducing new binary messages to users manufacturers and the Organization 6 By the end of the trial period all SOLAS ships and a large number of non SOLAS vessels are expected to be equipped with AIS allowing IMO to evaluate the benefit and practicability of AIS binary messages as well as the loading of AIS frequencies 7 If the evaluation is positive the use of binary messages could be extended Should a Member Government see the need to propose a n
148. pose The channels allocated are AIS 1 161 975 MHz and AIS 2 162 025 MHz 2 3 5 IEC Test Standard IEC prepares the type approval test specifications for ships mandatory equipment required under SOLAS which in the case of AIS includes Test specification Data in out standard Connector standard Built in Integrity Test BIIT details The ITU R had earlier issued another AIS related recommendation without any formal request from IMO entitled ITU R M 825 2 Characteristics of a transponder system using DSC techniques for use with VTS and Ship to ship identification IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 The IEC Test Standard for AIS is 61993 2 Ship borne Automatic Identification System AIS Operational and Performance Requirements Methods of Testing and Required Test Results 2 4 SOLAS CARRIAGE REQUIREMENTS The international requirement for the carriage AIS as ship borne navigational equipment on vessels is detailed within Chapter V Safety of Navigation Regulation 19 of the revised SOLAS Convention In mandating the new carriage requirement a phased approach was taken to its implementation SOLAS Regulation V 19 requires that All ships of 300 gross tonnage and upwards engaged on international voyages and cargo ships of 500 gross tonnage and upwards not engaged on international voyages and passenger ships irrespective of size sh
149. pter 11 6 INTEGRATION amp DISPLAY OF AIS INFORMATION ASHORE It should be noted as previously mentioned a harmonised approach to display of AIS information has been taken by IMO and IEC for ship borne use VTS Harbour Authorities and others should take account of this when addressing the following points e Display on Radar e Display on ECDIS e Display on Dedicated Graphic Display e Display of Navigation Warnings e Display of Meteorological Warnings e Display of Shipping Information 35 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 7 AIS INFORMATION TRANSFER amp COMMUNICATION MODES 7 1 DATA TRANSFER WITH AIS The AIS station normally operates in an autonomous and continuous mode using the SOTDMA Self Organizing Time Division Multiple Access protocol regardless of whether the fitted vessel is operating on the open seas coastal waters or on inland waterways To operate correctly on the radio link there are also RATDMA Random ITDMA Incremental and FATDMA Fixed protocols The main purpose of these different protocols is e RATDMA is used to access the radio link and within limits randomly allocate a slot It can also be used to initiate a more frequent update rate e g when changing course e ITDMA is used to allocate slots in the next minute and to prepare for SOTDMA slot map For example when the ship has to update at a faster rate e g when ch
150. r of persons on board normally provided at the Master s discretion or on request from a competent authority Number of Persons Current number of persons onboard including crew members 0 8191 default 0 not available 8191 8191 or more This IFM uses one slot Table 22 Number of Persons Onboard 64 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 9 USE OF AIS INFORMATION 9 1 USE OF AIS INFORMATION IN COLLISION AVOIDANCE A study by the German Marine Board of Inquiry into the causes of collisions at sea during the period 1983 1992 indicated that most of the so called radar assisted collisions see Figure 6 occurred in restricted visibility when radar provided insufficient incomplete or ambiguous data The study concluded that many of these collisions could have been avoided if the navigators involved had been able to access timely and dynamic information position heading speed and rate of turn etc on the other vessel involved AIS in the ship ship mode can now provide such dynamic information accurately and at high update rates when target information is available on the ships involved fog fog fog AN A Figure 6 Some Examples of Collision Scenarios at Sea 9 1 1 Risk of Collision COLREG Rule 7 Risk of Collision states that Every vessel shall use all available means appropriate to the prevailing circumstances and conditions
151. radar electronic chart display and information system ECDIS or another dedicated electronic display such as that provided or an INS This would provide the greatest benefit to the mariner The AIS has the facility 34 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 to show this information on an external display medium or integrated into ECDIS ECS and or a radar display At its 47 session in July 2001 the IMO Sub Committee on Safety of Navigation NAV agreed on interim guidelines for the presentation and display of AIS target information The interim guidelines IMO SN Circ 217 deal with the graphical presentation and display of AIS target data in standalone or integrated navigational aids systems These guidelines were drafted to allow manufacturers to develop the relevant equipment and functionality in time and to allow mariners to acquaint themselves with AIS information from the early days of AIS deployment Subsequently at the 50 session of NAV in July 2004 a Performance Standard for for the Presentation of Navigation related Information on Shipborne Navigational Displays was agreed This is at NAV 50 19 Annex 6 The standard is at Annex 3 to this document A SN Circ on Guidelines for the presentation of navigation related symbols terms and abbreviations NAV 50 19 Annex 7 is set out at Annex 4 5 2 AIS INSTALLATION AND INTEGRATION This matter is dealt with in Cha
152. ransmission receipts the TDMA algorithm prevents overload of the AIS unit by selectively culling transmissions accepting those closest to the unit and eliminating those furthest away a feature particularly useful to ships which must pay particular attention to those vessels in closer proximity however this feature could prove detrimental to VTS operations that must service a large area and must give equal if not more attention to areas distant from a VTS transponder site s and AIS is not intended to be a general communications means therefore for general communication purposes mariners and VTS operators should use the appropriate technologies Whilst AIS tracks will overcome the great majority of radar shadow effects the very close proximity of buildings and bridges sometimes known as the urban canyon effect can cause difficulties for AIS transponders in heavily built up areas This is a consequence of inhibiting either the reception of the GNSS and or DGNSS signal by the AIS transponder or the transmission of the subsequent AIS message AVAILABILITY OF NATIONAL REGIONAL LOCAL DGNSS CORRECTIONS In order to monitor vessel navigation with the better than 10 metre accuracy potentially possible a reliable DGNSS correction signals will need to be made available to all vessels throughout the VTS area Such services are provided nationally or regionally in some areas Where such a service does not exist a VTS authority ma
153. rational Issues Ed 1 3 It should also be noted that this information is more rapidly available to a vessel fitted with AIS and should be appropriately used 4 1 4 5 Automatic indication of Voyage Related Information cargoes dangerous goods etc If dangerous goods are being carried vessels are normally required to report to the VTS authority The AIS voyage related message permits the inclusion and automatic transmission of this information 4 1 5 SHORE TO VESSEL AIS SERVICES AIS messages are designed to provide information from shore such as hydrographical hydrological meteorological aids to navigation and warning messages Local messages can also be communicated 4 1 5 1 USE OF AIS AS AN AID TO NAVIGATION AtoN Remote control and monitoring systems for aids to navigation have been developed primarily to enable service providers to ensure that aids and supporting systems are functioning correctly and where required to organise maintenance Until now there had been no simple cost effective and universal method of communicating such information The introduction of AIS presents an opportunity to provide such information to service providers and mariners using internationally standardised and recognised equipment message protocols and frequencies The operation and performance of aids to navigation can be monitored or controlled using the AIS data link as the interface with the service provider It is possible to have an
154. rce exploration and exploitation and environmental protection Such offshore areas include the continental shelf and economic exclusion zones EEZ In certain areas tankers must move in strict conformance with established Tanker Exclusion Zone TEZ regulations Examples are e The TEZ on the West Coast of Canada e The mandatory route for larger tankers from North Hinder to the German Bight and vice versa as described in IMO document MSC 67 22 Add 1 Annex 11 e The two ship reporting systems in Australia AUSREP and REEFREP Both have been adopted by IMO and could be potential candidates for implementing the long range application e Maritime security is another functionality that can benefit from long range AIS tracking Adherence to the regulations pertaining to such cases must be monitored Currently voluntary and mandatory ship reporting schemes are approved by IMO and specific reporting formats are as laid down in IMO resolution A 851 20 General principles for ship reporting systems and ship reporting requirements including guidelines for reporting incidents involving dangerous goods harmful substances and or marine pollutants The long range mode of AIS provides an effective alternative or complementary tool to allow ships to comply effectively with these rules 7 5 2 LONG RANGE REPORTING FORMAT Table 4 describes the long range functions which are available as standard in the AIS If the Function Identifier ID has the
155. reports and voyage related data Ship name Call sign MMSI number shall be used as a flag identifier MMSI IMO number Date and time in UTC Time of composition of message shall be given in UTC only Day of month hours and minutes Position WGS84 Latitude Longitude degrees and minutes fF Notavailable rr O available Ze Course over R ar I COG in degrees CE Speed over ground SOG in knots and 1 10 knots Not available Destination ETA At masters discretion ETA time format see B LKLMN __ Notavailabie Actual maximum draught in 1 10 of meters Ship Cargo As defined in AIS message 5 Q R S T Not available U Length Beam Type Length and beam in meters Type as defined in AIS message 5 tonnage not available Number of persons on board Z Not used Table 4 Long Range Message Content 43 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 8 AIS MESSAGES 8 1 MESSAGE TYPES AND FORMATS AIS messages emanating from a Class A mobile station can be categorised as static dynamic or voyage related The content of these messages remain valid for different durations thus requiring different update rates Ship s speed and manoeuvring status are the parameters governing the update rates for dynamic messages and ensuring the appropriate levels of positional updates latency for ship tracking A similar process
156. s capable of showing increasing levels of survey detail as operators reduce the scale on their displays This will only be possible where the electronic chart is compiled from source survey data rather than from an existing paper chart In these circumstances it will also be important that the charted location of radar sites is accurate to a maximum of 10 metres if errors between radar and AIS generated tracks which will be all the more obvious at reduced range scales are to be avoided IHO standard S52 defines the standards for symbols and colours on official electronic charts Four variations of the basic colour scheme are available These colour schemes whilst optimised for navigation in varying light conditions on the bridge of a vessel may not be suitable for VTS purposes ashore particularly where operators are required to study a display constantly for long periods 4 1 3 3 Choice of VTS Symbols These symbols may be found to be unsuitable for VTS purposes for two reasons Firstly those selected to represent AIS tracks may need to be accommodated logically within an existing framework of symbols Secondly VTS centres will often have need to represent visually on the traffic image a much wider range of information than is necessary onboard a vessel For example traffic management may necessitate the use of symbols that depict different types and sizes of vessels Alternatively it may be necessary to show which vessels have pilots em
157. s heading scale outline Used on small ranges large scales Cross located on a true scale outline of the ship at the physical location of the radar antenna that is the current source of displayed radar video Own Ship Radar Antenna Position Solid line thinner than the speed vector line style drawn to the bearing ring or of fixed length if the bearing ring is not displayed Origin is at own ship s reference point Own Ship Heading line Own Ship Beam line Solid line of fixed length optionally length variable by operator Midpoint at own ship s reference point Dashed line short dashes with spaces approximately twice the line width of heading line Time increments between the origin and endpoint may Own Ship Speed optionally be marked along the vector using short vector iitersecting lines To indicate Water Ground stabilization optionally one arrowhead for water stabilization and two arrowheads for ground stabilization may be added Own Ship Path prediction A curved vector may be provided as a path predictor Thick line for primary source Thin line for secondary Own Ship source Past Track Optional time marks are allowed 117 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Table 2 Tracked Radar Target Symbols Tracked Target including Dangerous Target Solid filled or unfilled circle located at target position The course
158. s to Radar X Band applies to Radar X BAND XTD Cross Track Distance 129 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 List of Standard Units of Measurement and Abbreviations Unit Abbreviation Abbreviation Unit cable length cbl cbl cable length cycles per second cps cps cycles per second degree s deg deg degree s fathom s fm fm fathom s feet foot ft ft feet foot gigaHertz GHz GHz gigaHertz hectoPascal hPa hPa hectoPascal Hertz Hz Hz Hertz hour s hr s hr s hour s kiloHertz kHz kHz kiloHertz kilometre km km kilometre kiloPascal kPa kPa kiloPascal knot s kn kn knot s megaHertz MHz MHz megaHertz minute s min min minute s Nautical Mile s NM NM Nautical Mile s Notes 1 Terms and abbreviations used in nautical charts are published in relevant IHO publications and are not listed here 2 In general terms should be presented using lower case text and abbreviations should be presented using upper case text Those abbreviations that may be presented using lower case text are identified in the list e g AGNSS or Rx 3 Abbreviations may be combined e g CPA LIM or T CRS When the abbreviation for the standard term Relative is combined with another abbreviation the abbreviation R should be used instead of REL e g R CRS 4 The use
159. sages 6 and 8 looks as follows B e E Application Identifier IAI RAI Figure 5 58 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Applications for binary messages can be defined as international applications which can be used by groups of users worldwide International Branch The DAC identifies the international branch of applications if its value is 001 and in combination with the FI it is called the International Application Identifier IAI Examples of international applications are the transfer of VTS targets or number of persons onboard It is possible to define local or regional applications which can be used by systems in a limited area or for a specially defined group of users In this case the DAC identifies the regional branch of applications if its value is in the range between 001 and 999 In combination with the FI it is called the Regional Application Identifier RAI DAC identifies a certain region or country as given by the Maritime Identification Digits MID as defined by ITU R which are the leading three digits of the MMSI An example of a regional application can be sending specifically formatted messages to service vessels e g tugboats in one particular port or country The DAC value of 000 is reserved for test purposes only Values between 1000 and 1023 are reserved for future expansions of general capabilities The FI identifies the applicatio
160. se Communication SOTDMA ITDMA status State Table 14 SAR Aircraft Position Report 53 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 8 3 2 DGNSS BROADCAST MESSAGE Broadcasting differential GPS corrections from ashore or correlating the ship s position on board by DGPS connection via the SOTDMA data link to all vessel AIS stations enables those recipients to navigate with differential accuracy The position broadcast from the vessels will have differential accuracy the built in functionality using the best available correction available at that instant This type of system could serve as the primary system in a port or VTS area or as a back up for the IALA DGPS MF Beacon System For full compatibility with the IALA DGPS MF Beacon System it should be provided with capabilities for integrity monitoring and for transfer of that information to the user 8 3 3 DGNSS BROADCAST BINARY MESSAGE This message 17 is transmitted by a base station which is connected to a DGNSS reference source and configured to provide DGNSS data to receiving stations The contents of the data should be in accordance with ITU R M 823 2 excluding preamble and parity formatting Parameter Description Message ID Repeat Indicator Identifier for message 17 always 17 Used by the repeater to indicate how many times a message has been repeated 0 3 default 0 3 do not repeat aga
161. sed agency of the United Nations within which the public and private sectors co ordinate global telecommunication issues and services At the ITU World Radiocommunication Conference WRC in Geneva during October November 1997 IMO requested that two maritime VHF channels be assigned for AIS These were designated and a footnote was added to Appendix 18 of the ITU Radio Regulations entitled Table of Transmitting Frequencies in the VHF Maritime Mobile Band as follows These channels AIS 1 and AIS 2 will be used for an automatic ship identification and surveillance system capable of providing worldwide operation on high seas unless other frequencies are designated on a regional basis for this purpose The channels allocated are AIS 1 161 975 MHz and AIS 2 162 025 MHz Under the auspices of IALA a draft of the Technical Characteristics was prepared and submitted to a meeting of the ITU Radiocommunication Study Group Working Party 8B in March 1998 A draft new Recommendation ITU R M 1371 1 was prepared entitled Technical Characteristics for a Ship borne Automatic Identification System AIS Using Time Division Multiple Access in The Maritime Mobile Band This document was formally approved by ITU November 1998 and is now the adopted technical standard for AIS This Recommendation specifies the following technical criteria among others Transceiver characteristics Modulation Data format messages and packaging
162. sist both the pilot and the VTS in their respective tasks For example the AIS can provide a bird s eye view of a docking operation with tugboats connected or pushing including information such as bollard pull directions of pull and even issuing the commands to the tugboats through the Pilot Pack Special local applications in e g rivers canals harbours and archipelagos will most certainly be one of the tools for a pilot or a master with pilot exemption to make their tasks more efficient The AIS is able to handle both internationally agreed messages and locally designed messages This makes the AIS one of the major tools for the pilot in the future 10 3 PORTABLE PILOT PACK There are two types of portable carry onboard pilot AIS equipment The first type is a pilot workstation combined with a portable AIS The second type is a pilot workstation which connects to the pilot port connector or pilot plug of an onboard AIS e A pilot workstation combined with portable AIS can be used primarily to provide marine pilots with the capability to carry onboard an AIS station when the vessel being piloted Such a Pilot Pack contains GNSS DGNSS AIS heading sensor optional and a workstation laptop or notebook computer The heading sensor is essential if the vessel is using the Pilot Pack for navigating in waters where there are frequent course alterations Without the heading sensor the AIS will not provide this vital bit of information to
163. ssages can be either Addressed message 12 to a specified destination MMSI or Broadcast message 14 to all AIS fitted ships in the area Messages can include up to 156 six bit ASCII character addressed msg 12 and up to 161 six bit ASCII character broadcast msg 14 in the text of the message but should be kept as short as possible They can be pre defined or free format text messages and their content should be relevant to the safety of navigation e g an iceberg sighted or a buoy not on station Short Safety Related Messages are an additional means to broadcast maritime safety information Their usage does not remove any of the requirements of the Global Maritime Distress Safety System GMDSS 52 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 8 3 NON STANDARD MESSAGES 8 3 1 SAR AIRCRAFT POSITION REPORT This message 9 is used for a standard position report from aircraft involved in SAR operations instead of Messages 1 2 or 3 Stations other than aircraft involved in SAR operations should not use this message The default reporting interval for this message is 10 seconds Message ID Identifier for message 9 always 9 Repeat Indicator Used by the repeater to indicate how many times a message has been repeated 0 3 default 0 3 do not repeat again Altitude GNSS Altitude derived from GNSS expressed in metres 0 4094 metres 4095 not av
164. ssenger ships irrespective of size shall be fitted with Automatic Identification System AIS as follows e Ships constructed on or after 1 July 2002 e Ships engaged on international voyages constructed before 1 July 2002 o Inthe case of passenger ships not later than 1 July 2003 o inthe case of tankers not later than the first survey for safety equipment after 1 July 2003 o Inthe case of ships other than passenger ships and tankers of 50 000 gross tonnage and upward not later than 1 July 2004 o Inthe case of ships other than passenger ships and tankers of 300 gross tonnage and upwards but less than 50 000 gross tonnage not later than the first survey for safety equipment after 1 July 2004 or by 31 December 2004 whichever occurs earlier and o Ships not engaged on international voyages constructed before 1 July 2002 not later than 1 July 2008 As determined at the IMO Conference of Contracting Governments to the International Convention for the Safety of Life at Sea 1974 9 13 December 2002 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 1 4 RECOMMENDATIONS STANDARDS AND GUIDELINES The following International Recommendations Standards and Guidelines apply to AIS equipment fitted on SOLAS Convention ships IMO Recommendation on Performance Standards for An Universal ShipborneAutomatic Identification System AIS MSC 74 69 Annex 3 IMO Guidel
165. stem AIS 104 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 6 3 1 2 The operation of the radar target tracking function and the processing of reported AIS information including the number of targets presented related to screen size is defined within the Performance Standards for Radar Equipment as adopted by the Organization The presentation of radar target tracking and AIS information is defined within these performance standards 6 3 1 3 As far as practical the user interface and data format for operating displaying and indicating radar tracking and AIS information should be consistent 6 3 2 Target capacity 6 3 2 1 There should be an indication when the target tracking and or reported target processing display capacity is about to be exceeded 6 3 2 2 There should be an alarm when the target tracking and or reported target processing display capacity has been exceeded 6 3 3 Filtering of AIS sleeping targets 6 3 3 1 To ensure that the clarity of the total presentation is not substantially impaired it should be possible to filter the presentation of sleeping AIS targets e g by target range CPA TCPA or AIS target class A B etc 6 3 3 2 If a filter is applied there should be a clear and permanent indication The filter criteria in use should be readily available 6 3 3 3 It should not be possible to remove individual AIS targets from the display 6 3
166. t direction in degrees valid range 0 359 360 not Current direction predicted 1 available default 6 Een E EE Current speed has Current speed in 0 1 knots valid range 0 126 127 not Position 1 Lon predicted 1 available default Position 2 Lat 27 1 10 000 min 90 degrees North positive South negative 91 degrees not available default 1 10 000 min 180 degrees East positive West negative 181 degrees not available default Current direction in degrees valid range 0 359 360 not a ae La 6 LB el predicted 2 available default Ee RAR FE Mi available default Position 2 Lon Position 3 Lat 27 1 10 000 min 90 degrees North positive South negative 91 degrees not available default 1 10 000 min 180 degrees East positive West negative 181 degrees not available default 0 23 24 UTC hour not available default 25 31not used 0 59 60 UTC minute not available default 61 63 unused ss I Current direction 9 Current direction in degrees valid range 0 359 360 not predicted 3 available default 3 2 3 D 2 2 2 Position 3 Lon From UTC hour 5 From UTC minute 6 Current speed predicted 3 Current speed in 0 1 knots valid range 0 126 127 not available default Total number of bits occupies 3 slots 6 2 0 0 1 1 6 4 5 8 5 5 7 8 5 5 7 8 5 7 76 95 IALA Guidelines
167. t should only be possible temporarily as long as the operator activates the corresponding control The AIS symbol of an activated target may be replaced by a scaled ship symbol on a large scale small range display If the COG SOG vector is shown its reference point should be either the actual or the virtual position of the antenna Means should be provided to select a target or own ship for the display of its AIS data on request If more than one target is selected the relevant symbols and the corresponding data should be clearly identified The source of the data e g AIS radar should be clearly indicated 9 2 2 Processing of information If zones or limits for automatic target acquisition are set these should be the same for automatically activating and presenting any targets regardless of their source The vector time set should be adjustable and valid for presentation of any target regardless of its source If radar plotting aids are used for the display of AIS information these should be capable of calculating and displaying collision parameters equivalent to the available radar plotting functions If the calculated CPA and TCPA values of an AIS target are less than the set limits a dangerous target symbol should be displayed and an alarm should be given 70 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 The pre set CPA TCPA limits applied to target data
168. t significant bit should equal bit zero of the Target ID Spare Spare Should be set to zero Latitude Latitude in 1 1000 of a minute Longitude Longitude in 1 1000 of a minute COG Course over ground in degrees 0 359 360 not available default Time Stamp UTC second when the report was generated 0 59 or 60 if time stamp is not available which should also be the default value SOG Speed over ground in knots 0 254 255 not available default Total Number of bits A VTS target should only be used when the position of the target is known However the target identity and or course and or time stamp and or speed over ground may be unknown Purpose This message should be used to transmit VTS targets This message should be variable in length based on the amount of VTS targets The maximum of VTS Targets transmitted in one International FM 16 should be seven 7 Because of the resulting effects of VDL channel loading the transmission of International FM 16 should be no more than necessary to provide the necessary level of safety Attributes broadcast VTS transmitting no acknowledgement 97 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 4S AIS AtoN ARPA ATA AUSREP BAS BIIT BT COG COLREG CPA DAC DF DGNSS DSC EEZ ECDIS ECS EPA EPFD ETA FATDMA FM GMSK HDG HDOP GLONASS GPS GNSS IAI Authorities ITDMA IBS
169. th vessels in a designated geographic area Please refer to Chapter 8 AIS Messages for further information The long range reporting and polling functions allow areas to be monitored and vessel reports to be transmitted outside the normal AIS VHF range operational areas It should be noted that ships may not be able to comply with the requirements of national and IMO approved ship reporting systems using AIS alone 32 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 CAUTIONARY NOTE In order to avoid a situation whereby AIS fitted vessels incorrectly believe that a VTS authority is receiving data being transmitted via the AIS all VTS authorities should publish their status in respect of AIS by appropriate means Where applicable the date on which they intend to incorporate AIS should also be promulgated well in advance 33 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 5 FUNCTIONAL REQUIREMENTS OF AIS 5 1 INTEGRATION AND DISPLAY OF AIS INFORMATION 5 1 1 Display issues e Display on a dedicated graphical display At IMO NAV 50 July 2004 the following was agreed upon e Performance Standards for the presentation of navigation related information on shipborne navigational displays NAV 50 19 Annex 6 This appears at Annex 3 of this document e Guidelines for the presentation of navigation related sym
170. ties of the VDL must be fully understood Experience should be gained in the use of AIS for its originally intended purposes before any amendments to cater to security are proposed to IMO AIS is expected to play a major role in VTS but is likely to be used in combination with other systems 20 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 3 OPERATION OF AIS 3 1 ONBOARD OPERATIONAL USE OF SHIPBORNE AIS The AIS is a ship to ship and ship to shore broadcast system In the ship to ship mode of operations IMO has provided Guidelines for the Onboard Operational Use of Ship borne Automatic Identification Systems AIS IMO Resolution A 917 22 for the mariner However the following caution must be noted CAUTION NOT ALL SHIPS CARRY AIS The Officer of the Watch OOW should always be aware that other ships and in particular pleasure craft fishing boats and warships and some shore stations including Vessel Traffic Service VTS centres might not be fitted with AIS The OOW should always be aware that AIS fitted on other ships as a mandatory carriage requirement might under certain circumstances be switched off particularly where international agreements rules or standards provide for the protection of navigational information 3 2 BASIC OPERATION PROCEDURES The ship borne AIS unit is connected to a power source an antenna and to a variety of on board
171. tinued operation of AIS might compromise the ship s safety or security the AIS may be switched off however the equipment should be reactivated as soon as the source of danger has disappeared This might be the case in sea areas where pirates and armed robbers are known to operate It may be necessary to switch off AIS or to reduce the transmission power during some cargo handling operations Actions of this nature should always be recorded in the ship s logbook If the AIS is shut down static data and voyage related information remains stored Restart is achieved by simply switching on the power to the AIS unit Own ship s data will be transmitted after a two minute initialisation period 3 3 2 INTEGRITY CHECK AIS provides A built in integrity test BIIT running continuously or at appropriate intervals Monitoring of the availability of the data An error detection mechanism of the transmitted data and Error checking of the received data 22 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 If no sensor is installed or if the sensor e g the gyro fails to provide data the AIS automatically transmits the not available data value However the integrity check cannot validate the accuracy of the data received by the AIS CAUTION To ensure that correct AIS information is broadcast to other vessels and shore authorities mariners are reminded to enter current v
172. tion e Not all ships carry AIS The OOW should always be aware that other ships in particular pleasure craft fishing vessels and warships and some shore stations including Vessel Traffic Service VTS centres may not be fitted with AIS e Care should be taken to ensure that AIS units are installed in accordance with the stipulated IMO Guidelines to avoid poor performance and erroneous transmissions e Government agencies and owners should ensure that watch keeping officers are trained in the use of AIS and are aware of its limitations e The OOW should always be aware that AIS fitted on other ships as a mandatory carriage requirement may under certain circumstances be switched off particularly where international agreements rules or standards provide for the protection of navigational information 75 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 e To ensure that correct AIS information is broadcast to other vessels and shore authorities mariners are reminded to enter current voyage related data such as draught type of hazardous cargo destination and ETA properly at the beginning of each voyage and whenever changes occur e Mariners should be aware the accuracy of AIS positional information is the accuracy of the EPFD connected For example LORAN C can be used but will typically have a far lower accuracy than GPS e Mariners are reminded to periodically check t
173. tion Of Precision High Frequency HF HF High Frequency High Speed Craft applies to HSC HL Heading Line AIS Horizontal Dilution Of Precision HDOP HS Harmful Substances applies to AIS Identification ID HSC High Speed Craft applies to AIS In IN UO Input Output Increase INCR ID Identification Indication IND IN In Information INFO INCR Increase Infrared INF RED IND Indication Initialisation INIT INF RED Infrared Input INP INFO Information Input Output UO INIT Initialisation Integrated Radio IRCS INP Input Communication System Interference Rejection IR INT Interval Interswitch ISW IR Interference Rejection Interval INT IRCS Integrated Radio Communication System January JAN ISW Interswitch July JUL JAN January June JUN JUL July Latitude LAT JUN June Limit LIM LAT Latitude 125 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Term Abbreviation Abbreviation Term Line Of Position LOP LF Low Frequency Log LOG LIM Limit Long Pulse LP LOG Log Long Range LR LON Longitude Longitude LON LOP Line Of Position Loran LORAN LORAN Loran Lost Target LOST TGT LOST TGT Lost Target Low Frequency LF LP Long Pulse Magnetic MAG LR Long Range Manoeuvre MVR MAG Magnetic Manual MAN MAN Manual M
174. tion is more sensitive than analogue voice communication to interference created by reflections in obstructions like masts and booms It may be necessary to relocate the VHF radiotelephone antenna to minimize interference effects To minimise interference effects the following guidelines apply e The AIS VHF antenna should have omni directional vertical polarisation e The AIS VHF antenna should be placed in an elevated position that is as free as possible with a minimum of 2 metres in horizontal direction from constructions made of conductive materials The antenna should not be installed close to any large vertical obstruction The objective for the AIS VHF antenna is to see the horizon freely through 360 degrees e The AIS VHF antenna should be installed safely away from interfering high power energy sources like radar and other transmitting radio antennas preferably at least 3 meters away from and out of the transmitting beam e ideally there should not be more than one antenna on the same level The AIS VHF antenna should be mounted directly above or below the ship s primary VHF radiotelephone antenna with no horizontal separation and with a minimum of 2 metres vertical separation If it is located on the same level as other antennas the distance apart should be at least 10 metres 3 2 2 Cabling The cable should be kept as short as possible to minimise attenuation of the signal Double screened coaxial cables equal or better than RG214
175. tion report from base station 11 UTC and position response from mobile station Repeat Indicator Used by the repeater to indicate how many times a message has been repeated 0 3 default 0 3 do not repeat again UTC year 1 9999 0 UTC year not available default UTC month 1 12 0 UTC month not available default UTC day 1 31 0 UTC day not available default UTC hour 0 23 24 UTC hour not available default UTC minute 0 59 60 UTC minute not available default UTC second 0 59 60 UTC second not available default Position accuracy 1 high lt 10 m Differential Mode of e g DGNSS receiver 0 low gt 10 m Autonomous Mode of e g GNSS receiver or of other electronic position fixing device default 0 Longitude Longitude in 1 10 000 minute 180degrees East positive West negative 181 degrees not available default Latitude Latitude in 1 10 000 minute 90degrees North positive South negative 91 degrees not available default Type of Electronic use of differential corrections is defined by field position accuracy above Position Fixing Device 0 Undefined default 1 GPS 2 GLONASS 3 Combined GPS GLONASS 4 Loran C 5 Chayka 6 Integrated Navigation System 7 surveyed 8 15 not used RAIM Flag Receiver Autonomous Integrity Monitoring RAIM flag of electronic position fixing device 0 RAIM not in use default 1 RAIM in use C
176. to determine if risk of collision exists If there is any doubt such risk shall be deemed to exist gt IMO Paper NAV 43 7 16 Automatic Identification Systems AIS Note by Germany dated 16 May 1997 65 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 The COLREGs oblige ships to apply all available means to detect the danger of collision and to take preventive measures One of these means especially during reduced visibility is ship borne radar another aid now available is AIS The following sections contrast the performance of radar with AIS and demonstrate how AIS could mitigate many of the limitations of radar 9 1 2 Limitation of radar performance When considering radar performance for collision avoidance a distinction needs to be made between raw radar targets and tracked radar targets The reliability of both as discussed in the following section involves issues of accuracy and the degree of delay of presentation 9 1 3 Raw Radar Targets The shape of the raw radar echo of targets does not normally give a true representation of the real dimensions of a target From the azimuth perspective and depending on the target aspect and distance the echo may be smaller at very long range or considerably larger at medium ranges This is a function of the horizontal beam width of the radar transmission Thus a ship at long range approaching the observing radar may app
177. track ships e Exchange data with shore based facilities AIS is an autonomous and continuous broadcast system operating in the VHF maritime mobile band AIS can handle multiple reports at rapid update rates and uses Self Organising Time Division Multiple Access SOTDMA technology to meet these high broadcast rates ensuring reliable and robust operation 2 2 PURPOSE OF AIS AIS allows automatic exchange of shipboard information from the vessel s sensors including static and voyage related data between one vessel and another and between a vessel and a shore station s Its principal functions are to facilitate e Information exchange between vessels within VHF range of each other increasing situational awareness e Information exchange between a vessel and a shore station such as a VTS to improve traffic management in congested waterways e Automatic reporting in areas of mandatory and voluntary reporting e Exchange of safety related information between vessels and between vessels and shore station s 2 3 COMPLIANCE Ships covered by Chapter V of the SOLAS Convention are required to fit as a mandatory requirement various navigational aids e g compass radar etc Any new equipment proposed for inclusion in the schedule of SOLAS requirements must comply with the following international standards as applicable IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3
178. ty in such areas Many benefits can be realised from such monitoring such as better traffic routeing port and harbour planning and more safety related information exchange Final resolution of the means beyond VHF FM range remains within IMO consideration with further guidance available through these Guidelines 24 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 4 OPERATION OF AIS ASHORE 4 1 USE OF AIS IN VTS This section of the IALA Guidelines on AIS builds on the original content of IALA Recommendation on AIS as a VTS Tool it also seeks to identify for the benefit of VTS authorities the ways in which AIS contributes to the achievement of the following tasks 4 1 1 IMO GUIDELINES FOR VTS IMO Assembly Resolution A 857 20 Guidelines for Vessel Traffic Services states that the following tasks should be performed by a VTS A VTS should at all times be capable of generating a comprehensive overview of the traffic in its service area combined with all traffic influencing factors The VTS should be able to compile the traffic image which is the basis for the VTS capability to respond to traffic situations developing in the VTS area The traffic image allows the VTS operator to evaluate situations and make decisions accordingly Data should be collected to compile the traffic image This includes e Data on the fairway situation such as meteorological and hydrological co
179. uipment to vessel categories via processes conducted under paragraph 2 5 above 2 7 INLAND WATERWAYS As an example of a regional inland use of AIS modified AIS carriage is contemplated for certain European waterways where the mix of ocean sea and inland vessels causes complications Multi national river commissions will regulate policy and practice setting precedent for other Administrations and regions to follow in similar inland scenarios where radio frequency availabilities permit For such inland applications development of a Class A derivative AIS unit has been considered providing full SOTDMA functionality but not involving the DSC components in order to achieve radio frequency agility As the AIS position sensor may also be the inland vessel s only position fixing device new regionalized procedures may be necessary for display interface The messaging process may also need regionalized adjustment 2 8 AIDS TO NAVIGATION A special type of an AIS station fitted to an aid to navigation AtoN AIS station can provide positive identification of the aid In addition this equipment can provide information and data that would amongst other things IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 e Complement an existing AtoN providing identity and additional information such as actual tidal height and local weather to surrounding ships or to a shore authority e Pro
180. ved from two different sensors see Figure 10 ROT sensor input the heading from a GYRO or THD and the rotation rate itself from a Rate of Turn indicator If a Rate of Turn Indicator according to resolution A 526 13 is connected the AIS should use this information to broadcast both direction and value of turn on the VDL If valid ROT or HDG data is available from other external sources Gyro INS the AIS should use this information to broadcast the direction of turn on the VDL if greater than 5 in 30s might also be implemented as 2 5 in 15s by configuration the AIS may also derive ROT information from HDG internally for that purpose If no ROT information is available the AIS should transmit default values indicating not available ROT data should not be derived from COG information If a ship is not required to carry Turn Indicator or if external sensor fails the AIS should react according to following priorities Affected data in msg 1 2 3 gt Contents of ROT Field gt a o a Position Sensor status 0 126 turning right at up to 708 degrees per minute or higher 0 126 turning left at up to 708 degrees per minute or higher 1 Rate of Turn Indicator in use Values between 0 and 708 degrees min should be coded by ROTais 4 733 SQRT ROT sensor degrees min where ROTsensor iS the Rate of Turn as input by the external Rate of Turn Indicator TI Values of 709 degre
181. vide the position of floating AtoN i e buoys by transmitting an accurate position corrected by DGNSS to monitor if they are on station e Provide real time information for performance monitoring including state of health of the aid e Provide information for performance monitoring with the connecting data link serving to remotely control changes of AtoN parameters or switching in back up equipment e Provide longer range detection and identification in all weather conditions and e Provide complete information on all AIS fitted shipping traffic passing within VHF range of the site The International Telecommunications Union ITU has recognized the potential of AIS for areas of shore based application in addition to ship reporting and VTS applications namely maritime safety related information services AtoN and maritime Search and Rescue SAR As a result provision has been made within AIS for an aids to navigation Report Message 21 AtoN AIS will enable AtoN providers to broadcast information on Type of AtoN Name of the AtoN Position of the AtoN Position accuracy indicator Type of position fixing device Time stamp Dimension of the AtoN and reference positions Bits reserved for use by the regional local aids to navigation providers can include the technical status of the AtoN e Virtual AtoN flag When a floating AtoN is out of position or malfunctioning navigational warnings must be given Th
182. which the ship is normally operated This can be by means of the AIS internal MKD integrated or remote or through the equivalent functionality on a separate display system A further requirement to connect AIS to the reserve power source of the GMDSS is under review by IMO 79 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 4 2 PILOT PLUG A pilot input output port is part of an AIS Class A station A plug connected to this port should be installed on the bridge near the pilot s operating position so that a pilot can connect a Portable Pilot Unit PPU The pilot plug should be configured as follows e AMP Receptacle Square Flanged 1 or Free Hanging 2 Shell size 11 9 pin Std Sex 206486 1 2 or equivalent with the following terminations TX Ais connected to Pin 1 TX Bis connected to Pin 4 RX Ais connected to Pin 5 RX Bis connected to Pin 6 Shield is connected to Pin 9 4 3 DISPLAY SYSTEM If there is navigational equipment capable of processing and displaying AIS information such as ECDIS radar or an integrated system available onboard the ship the AIS Class A mobile system may be connected to that system via the AIS Presentation Interface Pl The PI input output should meet the requirements of IEC 61162 2 The display system can also include the functionality of an MKD see paragraph on MKD above 4 4 INSTALLATION OF THE BIIT BUILT IN
183. would therefore need to be changed before beginning or at some time during the voyage This is defined by the second digit in the fourth column of the table 6 2 REFERENCE POINT OF POSITION The AIS stores one external reference point for the external GNSS antenna position and one internal reference point if an internal GNSS is to be used as fallback for position reporting The locations of these reference points have to be set during installation using values A B C D as described in the paragraph on Ship s dimensions below The external reference point may also be a calculated common reference position Additionally the content of the Ship Static Data SSD sentence on the PI including the reference point for position is being processed by the AIS and the AIS memory for the external reference point is set in accordance with the content of this SSD e g used by an INS 6 3 SHIP S DIMENSIONS Ship s dimensions should be entered using the overall length and width of the ship indicated by the values A B C and D in the following figure Ship s dimensions A B and C D should be identical when entering internal and external reference points 82 reference point IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 P ed m A 0 511 511 511 mor greater 0 511 511 511 mor greater C 0 63 Liese 0 63 CHE
184. xternal External EXT EZ Exclusion Zone 124 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 Term Abbreviation Abbreviation Term February FEB FEB February Fishing Vessel FISH FISH Fishing Vessel Fix FIX FIX Fix Forward FWD FM Frequency Modulation Frequency FREQ FREQ Frequency Frequency Modulation FM FULL Full Full FULL FWD Forward Gain GAIN GAIN Gain Galilleo GAL GAL Galilleo Geometric Dilution Of Precision GDOP GC Great Circle Global Maritime Distress and GMDSS GDOP Geometric Dilution Of Precision Safety System Global Navigation Satellite GNSS GLONASS Global Orbiting Navigation System Satellite System Global Orbiting Navigation GLONASS GMDSS Global Maritime Distress and Satellite System Safety System Global Positioning System GPS GND Ground Great Circle GC GNSS Global Navigation Satellite System Grid GRID GPS Global Positioning System Ground GND GRI Group Repetition Interval Group Repetition Interval GRI GRID Grid Guard Zone GZ GRND Vessel Aground applies to AIS Gyro GYRO GYRO Gyro Harmful Substances HS GZ Guard Zone applies to AIS Head Up H UP See note 2 H UP See note 2 Head Up Heading HDG HCS Heading Control System Heading Control System HCS HDG Heading Heading Line HL HDOP Horizontal Dilu
185. y consider providing these corrections itself It is technically possible to transmit the relevant corrections using the AIS system 72 IALA Guidelines on Automatic Identification System AIS Volume 1 Part I Operational Issues Ed 1 3 10 USE OF AIS IN PILOTAGE 10 1 OVERVIEW In pilotage areas like ports harbours rivers and archipelagos the effectiveness of AIS with high update rates is evident the AIS will be invaluable for navigation reporting and communication purposes The limitations of the ARPA radar to track vessels due to target swapping between vessels and land beacons bridges and other vessels makes the ARPA capabilities limited in narrow and congested waters AIS used in conjunction with ARPA radar enhances the safety of navigation Notwithstanding the cautionary advice contained in Chapter 12 safety will be improved by using AIS in pilotage waters and the broadcast AIS will achieve this by e identifying vessels by name call sign heading course over ground COG speed over ground SOG size draught and type e enabling automatic exchange of this information with the pilots on other vessels thereby reducing the need for verbal communications e detecting and identifying vessels especially in restricted visibility e identifying vessels behind a bend in a channel or behind an island in an archipelago e predicting the exact position of a meeting with another vessel s thereby allowing for the correct m
186. y from system to system and the operator should be aware of the limitations of the methods used e correlation and fusion can only be achieved correctly if reliable sensor data is obtained e when the overlay functionality is used the operator should exercise extreme caution in evaluating the information presented to him 9 2 OPERATIONAL REQUIREMENTS AIS information may be presented and displayed according to the following standards and guidelines e Performance Standards for the presentation of navigation related information on shipborne navigational displays NAV 50 19 Annex 6 e Guidelines for the presentation of navigation related symbols terms and abbreviations NAV 50 19 Annex 7 9 2 1 Presentation of information If AIS information is made available for a graphical display at least the following information should be displayed position course over ground speed over ground heading rate of turn or direction of turn as available If information provided by AIS is graphically presented the symbols described in the guidelines for Navigation Related symbols should be used In the case of a radar display radar signals should not be masked obscured or degraded Whenever the graphical display of AIS targets is enabled the graphical properties of other target vectors should be equivalent to those of the AIS target symbols otherwise the type of vector presentation radar plotting symbols or AIS symbols may be selectabl
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