4.2.1.1 PID Template
Contents
1. Attitude System GPS Position System serial serial p Bathyswath PC E USB USB TEM TEM Figure 5 4 Bathyswath 1 amp SWATHplus PC Clock Timing Configuration 5 5 5 Configuration settings Connections e Use serial output from the attitude and position sensor using a suitable data format Ethernet data interfaces still work in this mode but if they are available consider using Sensor Clock timing On a laptop computer it may be necessary to use an Ethernet Serial data converter USB data converters are not recommended as they can insert delays of several tens of milliseconds e PPS to the TEMs is not necessary in this mode as the TEM clock data is ignored e Use NTP or PPS to synchronise the PC clock if possible However this is not necessary to get good Bathyswath survey results Swath settings e Inthe initiation file swathprocconfig txt 6 4 1 set Oo sonar timeUpdatelInterval O This suppresses regular TEM clock resets These are not necessary as the TEM clock is ignored o F180socket enabled O assuming that a serial interface is being used e Inthe Swath program o Configure the attitude and position serial interfaces as explained in the Online Help o Select PC Clock in the Attitude and Position set up dialogs o Select PC Clock in the Sonar dialog The information contained on this sheet is subject to rest2. sccccccseseccecceseeceeeeeecceeeeeeecseseueeecesseueeeeesseueeeeeteeees 76 931 Insp c iransducers Jor marne GOWER vated criecircarentnsvczsvohnssacelacsie ctburtscncaudnsdvedesssarelouanciesarsensat nates 76 932 COO SIC CCI wancreitcnencovensacansenecie ca sabeoaenmaubancheutananeransieanensaedantepewasbvansosaneasataaheasapsasecsbarderapsosenranstennet 76 Do me lt 1 6 1 6 Pepe meer eae OnE neo ieee ene te Bee eee Pe eT eer ee Serene Ee a ee eee ee ee eee ee nee 76 9 4 EARLY ctl srcrcets Su oecistigees E E E E E feces aun sade uatassbesnont se teaessueoaaree 77 94 1 Transducer capacitance CHECK siriat or innana aeaa N ONE NEOA E a 77 9 5 TRAN SWC Ei C HECK acne ioniene a E E E A E O E 77 9 6 TRANSDUCER CONNECTOR DIAGRAMS esas ssa see eae wera AN EI EAE EE NEAN E ETEA 77 961 Bathyswalh 2 Tr ansaucer connect Ol eevniiirreeroritie EEren i EEA E EROT AE 78 9 6 2 Greasing and cleaning the connectors ccccccessessecneesessecueovessecnsousssccncosssscenceusssscncevssseencesssscenceussss 78 9 6 3 Bathyswath 1 TIU Transducer connectort 0 ssccccccsssessecccseeseccccsneseccessuuseccesacuseessssaueecsssaunsesessaansees 79 9 6 4 Bathyswath 1 Transducer Connectort sssccccsseecccsessccnauseccnsescecssecssaeecssuusessaunecesaseessuasessauasssages 81 The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page vi ETD 2004 Unclassified document ITER SY
3. ITER SYSTEMS www bathyswath com support bathyswath com Reference ETD 2004 Classification Unclassified Version 5 00 Date 13 05 15 Copy number N A if applicable Getting Started The information contained herein is the property of ITER Systems and is supplied without liability for errors or omissions No part may be reproduced except if a written permission is given by the company The copyright and the foregoing restriction on reproduction extend to all media in which this information may be embodied ITER SYSTEMS This page is left blank intentionally The information contained herein is the property of ITER Systems and is supplied without liability for errors or omissions No part may be reproduced except if a written permission is given by the company The copyright and the foregoing restriction on reproduction extend to all media in which this information may be embodied ITER SYSTEMS Void Section Notes 4 02 07 13 Previous format 102 MFG N A Version Date Modifications Pages Writer Checker The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page ii ETD 2004 Unclassified document ITER SYSTEMS TABLE OF CONTENTS 1 INTRODUCTION vianen E E N 1 1 1 REPERENCE ei tend ences i EEEE E EE EEE ET 1 1 2 OS SRY COAC CRONV MIE asioin E E E E E E a 1 1 3 PRE RACE A EE A P E A A VEE E EE A EE EE E E E 6 1 4 FOR MEW US ER eon
4. RF RIB ROV RS232 RTK Sensor Clock Session file Sidescan Slant range Spreading loss Squat Survey line Swath swath SWATHplus Swath sounding Data processing at the same time as data is collected compare with Post processing Radio frequency Rigid inflatable boat Remotely operated vehicle an unmanned underwater vehicle that is connected to a surface vessel by a cable and controlled by a human operator A commonly used format for serial data connections Real time kinematic GPS an accurate form of GPS measurement Recording the time of a data sample using a clock maintained inside the sensor itself Compare with PC Clock The file used by the Swath Processor application to store its settings Uses a sxs file extension Images of the seabed using the amplitude strength of the acoustic returns from the seabed These are usually represented as grey pixels in a waterfall display on the screen with the brightness of pixels representing the strength of the signal The maximum reach of the sonar measured in a direct line from the sonar transducers to the seabed compare with Horizontal range Reduction of the amplitude of the sonar signal as it passes through the water Change in height of a vessel in the water as the vessel moves An area of the seabed is usually surveyed by running a series of parallel straight lines across it The Swath Processor application A
5. TIU hardware calibration Bathyswath 1 and SWATHplus only At the beginning of every survey it is advisable to check that the Transducer Electronics Modules TEMs in the sonar electronics box or TIU have the same values as they did on delivery from the manufacturer The TIU electronics are tuned at the factory so the phase measurement electronics give a zero value This can be checked by using the temcal sxs swath session file and selecting Calibrate under the sonar dialogue The phase offsets found are listed under the phase offset dialogue found under the configuration menu The tests should be undertaken with the transducers attached This procedure is detailed in section 9 2 1 If the values differ from factory calibration or from the previous survey calibration values they must be noted in a phase offset table and be entered in any session file used to acquire or process the survey data The phase offsets should be entered and applied in the Phase Offset dialogue under Configuration in Swath These offsets are used to correct any phase offset misalignments in the TIU so that the sounding angles determined are correct The phase offsets must be correct when the patch test data is processed Sensor calibration Before any swath sensor patch test can be conducted the sensors being used for the survey must be calibrated following the procedures outlined by the sensor supplier Such sensor calibrations include magnetic compas
6. The disadvantages are e Asmall modification to the vessel is often needed e Itis less stable in roll than a bow mount e t needs to be lower than the bottom of the hull and is thus liable to damage from striking the seabed This also brings it closer to the seabed thus reducing range in Shallow water Aoff holes 12mm dia Figure 4 5 Pole End Plate to fit transducer frame The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 36 ETD 2004 Unclassified document ITER SYSTEMS The pole may be fixed to the side of the vessel using a variety of techniques Some vessels may have brackets fixed to their side that can be adapted for use with the Bathyswath pole Others may need a small modification The Bathyswath pole assembly includes a special bracket that enables the pole to be fixed to many vessels with a minimum of alterations The simplest approach is to fix the bracket to the side of the vessel using bolts clamps or similar fixings The pole is fixed to the bracket using U clamps The end of the pole is pulled tight using guys running fore aft and sideways using a belly strap running under the vessel to the rail on the other side Steel rope is better for this application than rope as it is less elastic Screw up tighteners bottle screws are useful to make the whole assembly rigid The problem with this appr
7. group is used to set up systems where two copies of the Swath Processor are used on two computers connected by a TCP IP link for example over an Ethernet cable or wireless link Typically the first system gathers the data from a sonar and the second is used for processing and display e The Fi80socket group sets up the TCP IP data for an attitude system that provides its data over a TCP IP link See 4 4 3 e The buffer group defines the size of data buffers used for storing system data In rare cases it can be necessary to increase a buffer size for an auxiliary sensor that is providing its data at an unusually high rate Conversely if it is necessary to reduce the memory load of the application to allow it to run on a computer with limited capacity perhaps on a remote platform then these buffers could be reduced in size but make sure that the system is thoroughly tested after doing so 6 5 STARTING THE SOFTWARE Windows provides several ways of starting software Most users have their own favourites The options include The Windows Start button The installation program adds a Bathyswath item to the start menu Select Swath processor for the real time and processing program and Grid Processor for the post processing QA calibration and gridding program m Double clicking on the swath icon in the Bathyswath program directory from the Explorer program 7 Double clicking on the icon of a
8. 13 05 15 Page 55 ETD 2004 Unclassified document ITER SYSTEMS Socket Properties Enable Server Client Send Receive Cane IP Address Port Help 3001 Local PC Data Format BathyswathParsed Bathyswath Raw Parsed Data Invert quality flags for Caris Invert sign of angles Send good data only Suppress processing after sending data on socket Block pinging if socket blocks 3 Select Enable 4 Determine whether Swath is to act as the Server or Client in the TCP IP connection and select in the Socket Properties dialog QINSy and Hypack are configured as clients so select Server in this case 5 Select Send 6 If using the Swath processor and the third party application on separate computers set the IP address of the other computer in the IP Address box Otherwise enter 127 0 0 1 This is the code for a localhost the Local PC button enters this address for you 7 To configure a network between two computers a Connect the Ethernet ports of the two computers This must be either through a network hub or using a crossover cable b Configure the IP address of the two computers so that they are on the same sub net For example two computers might be set 192 168 0 1 and 192 168 0 2 and the sub net mask of both of them set to 255 255 255 0 The IP address of a Windows XP computer is set using Start gt Settings gt Ne
9. ribbon of seabed depth measurements made up of a series of profile measurements of depth as the sonar is moved forwards over the seabed Previous versions of the Bathyswath sonar were called SWATHplus Measuring the depth in a line extending outwards from the sonar transducer then moving forwards to build up swaths The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 4 Unclassified document ETD 2004 ITER SYSTEMS WORDS amp ACRONYMS DEFINITION TCP IP TEM Third party software TIU Transducer TVG UUV V bracket XTF XYZ xyza ZDA A data format used to transfer data over Ethernet UDP is another type TCP IP is a more reliable protocol but is slightly slower Transducer Electronics Module provides the input and output electronics for one sonar transducer Software that is produced by organisations other than Bathyswath or its clients Transducer Interface Unit the blue box containg the TEMs The component that is placed in the water and converts sound energy into electrical signals and vice versa Time varying gain an adaptable gain correction applied to sidescan data to remove the gross changes in amplitude caused by range and transducer beam shape leaving an image of the seabed itself User Datagram Protocol see TCP IP Uninterruptible Power Supply a power supply that maintains a
10. Version 5 00 13 05 15 Page 32 ETD 2004 ITER SYSTEMS e The location of the transducers should be as close to the apex of the keel as is practical e The transducer pairs should be ideally laterally opposite each other However this is not essential if the location of each transducer is accurately measured e Pass the transducer cables through watertight glands in the hull or a sealed tube running to above the waterline in order that they may be connected to the electronics e The location of each transducer must be accurately recorded relative to some fixed point on the vessel e tis often convenient to use land survey techniques to measure these locations e The locations must be measured in three dimensions to an accuracy of about 10mm e Measure the angles that a normal to the transducers makes with vertical elevation and the fore and aft line azimuth An accuracy of about 1 degree is sufficient at this stage The actual elevation angle of the sonar boresight will be measured using the acquired depth data See the Online User Guide topics on Calibration e When the vessel is afloat record the location of the water line relative to the fixed point The height of the vessel in the water may change as the vessel moves this effect is called squat This effect is difficult to assess on a particular vessel but could be significant if ultimate depth accuracy is required Consider consulting the manufacturer of the v
11. sesesessereseseererereereesseerssereresssreroseseereseserresereeesssreresesreressseeressre 18 4 5 SWATHPLUS ISA INTERFACE CARD iencnctcsnsrscenamacenssinasinadaseeenamasinesanncinsnddaensinetebdapaliddewbstedsnaaheuedupnsinesuncanduenaneseedeie 18 The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page iii ETD 2004 Unclassified document ITER SYSTEMS 4 6 THE NET CONNEC HON asec becca E ete cue datiec are edu taieua cee brew A E 18 46 1 Windows FIFO WON iscevecesncricectanessvecduscedscudeviaasuaabnsdanestnccncewecdesct reesuereueteuebouacsneenssedescheesneueecdoactenenaks 19 462 Checking and Changing IP Address wisetecetescessceenssnscusccssidexnakenciseeeisdareciunsaxcotladsansderaaedeteavaiieeeeeatids 20 4 7 BATHYSWATH 1 AND SWATHPLUS USB cccceeccescscescceeseensececeeuceenseeeseeuseeuceeeeseeeseeuseeueeeeueeeneeeeeeeeeseensss 20 Hra OECO O aE E R A A E E A AAR AA 20 4 8 TRANSDUCER CONNECTIONS sssssssisesrecasioniorisne reoni knon rN becom neue attest claude ee nscuatacesceucusininuen NEES aaa S 20 4 9 POWER CONNECTION narnii a E EEE EE 20 4 10 GROUNDING AND EARTHIN G ca esac cence nare E Enae RENNA E ERSE TENANE EEEE EE E ENES RN ERAR EAE 20 4 10 1 Mains safely COI crnirriirieie ir e ana EEEE AE EEEE EEE REET E TE 21 4 10 2 Noe gare 0 04 4 6 4 oar tor Pere me EEEE er E OEE O AENT NE 21 4 10 3 CHIC COMTI COONS cscs becca ssi science case
12. the transducer face to be a little more turbulent but on the other hand the transducer face will be lifted away from surface effects on the vessel s hull This option requires only a small hole to be drilled in the vessel s hull to allow the transducer cable to pass through Transducers These points are in addition to those listed in Transducer Installation General above e Mount the transducers with their faces as flush to the hull as possible so that turbulence across them is kept to a minimum If flush mounting is impossible then a fairing must be constructed to smooth water flow across the transducer face This helps to reduce vibration and entrained air and helps to protect against damage to the transducers caused by striking submerged objects e The horizontal axes must be horizontal with respect to gravity when the vessel is at survey speed e The vertical axes of the transducers must be at as near to 30 degrees looking down from the vertical as is possible In other words the face of each transducer must make an angle of 30 with vertical e Design the location of the transducers to avoid multi path reflections from the hull or other structures Multipath Direct path Figure 4 3 Multi path reflections from hull The information contained on this sheet is subject to restrictions listed on the cover page of the document Unclassified document 4 14 5 4 14 6
13. AA AAN EAA AAA EAA N 41 ad 24 0 0 CEV ar e A ee en E TE ee ee TE E E A ee eee 42 313 Sonar OO CG VNO raia a TEE EET AEE EEEE TA EEEE AEREA 42 SLA PS PUSS p r Se CONC irinari Enri ni NEE EEEE EE EEEN 42 5 2 PP ANPUT TO TENI orren casters T AE E sae sanesaeecesee ues 43 The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page iv ETD 2004 Unclassified document ITER SYSTEMS 521 CONE CHO Ee PPS GOO cerrirsieririreris ierra inienn ienn NECETE ENEE AOA ARAS AEAN AENEAS 43 5 2 2 Monitoring the PPS input cccccccssecccsrcssescccscssescccccssesccsccssescesccssessesccsescesccssescesccssescencessescencessescens 43 5 3 STEM CONE GU OIG ae es ete tcc ct E EE EET EE EA ence 44 SoL CCT QUIS a AEE ons oetus anocamantebouauteetans oneomiuw AE E 44 5 4 SENSOR CLOCK TIMING CONFIGURATION c cxsncssstGenccotuncnencabcosenciecenusees a dnt daudous Goenieaencawanstdeeaancese 44 eG TIC SCH ON cere caacns cats sauceaccecst E E E E E A E E ET 44 ada MOVO ON ee o a A EE NEE A E EE E TE E E OE 44 54 3 Polena proble 7 en inaona iri Aena AE AEAN ENERE EUT EEEN EEEE OSEERE EEES OERE nee ae 45 544 Sytem lagri eiri aa aaa E E S EOE EEAS ENOO OTE 45 s45 COn 700 go 416 gia lt 1 8 S ier nE EEA TOEO OOE TEO OO OE OOOO N 46 5 5 PE CLOCK TIMING CONFIGURATION esse cede cecsecccesa cee ninian A EAEE EEAS EEE EA 47 a Le O ea E O E a a E E 47 ao MOMA ON oera A A E O ERE TO E EE T
14. ECE oT ENE ee EER AEAEE N EE EEE AAE eee 52 e U BOE E E EE TE E EEE A E E RN 32 6 3 TO INSTALL USB TEMs BATHYSWATH 1 AND SWATHPLUS 0cccccccesseccceceeseccceeeesecceseeeeceesseeeceeseueneeeeess 53 6 4 SOFTWARE SETTINGS F UE Src eteasteie er ctu ecrneetnpeale RE ERE EE T ees afta E ENEE A 53 GAAT Swan processor NOUO IE Ses reser rions Ter ine N O EEE EE O E 53 6 5 STARTING TE SOF TN AR E e E EEE EE EE AE E E E EE E 54 6 6 USING THE SOFTWARE sacs seine es ct eet E A E A E E E E E E 55 6 7 USE WITH REAL TIME THIRD PARTY APPLICATIONS saxccsveanewivccsaxcsaneeacadacecavecsuntnieeeesaseenuneanecaecoaxtewaneeaieoereamanene 55 CZ lt Conguning NESO WATE erreina anina nano AAE ETEEN NEEE 55 6 7 2 Using third party tools for both bathymetry and sidescan cccccseeecccesececeeseeeseeecsessesessesestssecees 59 7 USING BATHYSWATH FOR SURVEYING sccsscssccsscssccsscssccsccsscssccsccsscnscnscosscescnscosscnscnscosscnscscosscesoess 60 7 1 CHECKS DEFORE SURVEYING sactasccnecatetcnatsanlowenotensenndaeieecoresteaisnsbewesaneudaasdastonetene Geabcanteyecatesseaadassnecaneseenicents 60 Zl COMMON ECNECKS orarie ohare E O AE EE AEE O EN 60 Zda BOCAS WOU GEOG CONS reinoirei E EE E E i 61 Lr CO ooe anA A E A AOTEA AAA AAA EAE AEEA E 62 7 1 4 TIU hardware calibration Bathyswath 1 and SWATHplus only ccccccccsssseesseeeeeeccceeesseeceseecaeeesseeess 62 ALS SCNSOM CONDI GON coro iii ETE N AEN EEA E E OETAN A TEA EE E 62 ZAG SOO e COS U IETS oas a
15. PC based application using a UDP retransmit function Tip these attitude sensors are usually supplied with their own set up program using the same UDP The information contained on this sheet is subject to restrictions listed on the cover page of the document Unclassified document ITER SYSTEMS port as Bathyswath As it is not possible to configure the same port number to two applications running on the same computer the attitude sensor s own application program should be closed down before connecting it to the Swath program If it is necessary to run the attitude sensor set up program during the survey perhaps to monitor the system s performance run the sensor s application on a different computer on the network 2 Setup the parameters of the UDP output from the attitude sensor or its PC application in the initiation file 3 Open the Bathyswath initiation 6 4 1 file in a text editor This is generally found at C Program Files Bathyswath Bathyswath swathprocconfig txt 4 Find the section with entries that start F180socket This section applies to other Ethernet input systems such as POS MV too 5 Enable Ethernet attitude input by setting F180socket enabled 1 6 If required for system timing configure Swath to use the sensor time to set its own clock using F180socket timesyncEnable 1 For most applications 0 is the recommended setting see 5 for details 7 Run the Swath p
16. accurate solution is prone to communications delays and its relation to UTC GPS time is only as good as the PC s clock synchronisation which could be a second or more even with Windows time synchronisation tools However it is significantly more robust easier to set up and can be used with all attitude sensors SENSOR CLOCK TIMING CONFIGURATION Description In this mode the sonar and each sensor in the system provides its data time stamped with its own clock and each of the clocks is tied to UTC GPS time using an external reference or time server Motivation This configuration gives several advantages e Errors due to unknown or variable data communication times are eliminated e Attitude correction is better as errors due to time offsets are eliminated e Post processed attitude and position data can be used as these files are also related to the sensor clocks e All data is traceable back to a global time source The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 44 ETD 2004 Unclassified document ITER SYSTEMS e Datacan more easily be related to data from other systems being used at the same time e Some survey protocols specify such time referencing 5 4 3 Potential problems Disadvantages of sensor clock timing compared to PC clock timing include e tis harder to set up requiring careful configuration of the overal
17. etc The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 73 ETD 2004 Unclassified document ITER SYSTEMS 9 MAINTENANCE Bathyswath is very simple and robust and needs very little regular maintenance However the following instructions should help to keep a Bathyswath system accurate and operational 9 1 DAILY AND BEFORE LEAVING PORT 9 1 1 Safety check Inspect all components of the system for safety including Personal safety e Ensure that all electrical supplies are intact and undamaged e Ensure that the insulation of all cables is intact e Ensure that all cables are properly fixed down and do not present a trip hazard e Ensure that all off board equipment including transducer mounting arrangements is properly and firmly fixed e Ensure that there is a safety plan for the vessel being used and that all personnel understand it this is outside the scope of this manual but nonetheless literally vitally important e Refer to the safety advice in section 2 of this manual Equipment safety e Ensure that all equipment is firmly fixed down It may not be at risk of tipping over when in dock but consider the effect of a rolling ship on every item 9 1 2 Functional check e Before leaving port start up the system and check that profiles can be seen of the dock floor however short Ensure that the range and slope of the profiles that
18. f possible use a version of the attitude sensor that is supplied in a pressure tight bottle and fix it next to the transducers Otherwise the attitude sensor will not be able to correct for the motion of the end of the pole relative to the sensor e Use the attitude sensor mounting bracket supplied by Bathyswath appropriate to the unit being used In general e Refer to the attitude sensor s own handbook for installation instructions that are specific to the particular model used e Most attitude sensors are supplied with set up software that runs on the PC computer Run this software before using the sensor to survey The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 24 ETD 2004 Unclassified document ITER SYSTEMS e Most sensors need some kind of calibration process before they give an accurate output This might typically consist of a settling period followed by a series of turns or pre define manoeuvres Consult the sensor s own manual for details e Ensure that the attitude sensor is mounted the correct way up facing in the correct direction Refer to the attitude sensor s manual for further details Many models can be configured to work in different orientations Make sure that the orientation is entered correctly into the motion sensor s set up software e Accurately measure the location of the attitude sensor in three dimensions r
19. following measurements are needed Measurement Accuracy Typical Needed Value Attitude time offset time offset 0 001s __ Depends on the attitude sensor used Depends on the attitude sensor used Magnetic variation 0 5 Refer to local charts Only needed if compass is magnetic Aerial position 0 01m Port starboard and Forward aft Also relative to attitude height if using GPS heights sensor Position time delay O 1s 1 0s Best obtained using processing calibration Location of 0 01m All three directions transducers relative to attitude sensor Transducer mounting 0 1 30 Obtained from processing calibration angles Depth of transducers 0 01m Measure or calculate how this changes under water surface with vessel speed and loading Speed of sound 0 5m s 1400 See the Calibration section of the 1550m s online user guide Tide 0 01m See the Calibration section of the online user guide 4 18 4 Fault finding Refer to the Fault Finding topics of the Online User Guide The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 40 ETD 2004 Unclassified document ITER SYSTEMS 5 SYSTEM CONFIGURATION AND TIMING 5 1 BACKGROUND In order to create a set of valid depth measurements results from a number of subsystems need to be brought together These can include e Bathyswath sonar e Attitude system providing roll pitch amp heave
20. gt Advanced gt Settings gt Adjust for best performance The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 51 ETD 2004 Unclassified document ITER SYSTEMS 6 2 4 Hyperthreading On PC systems that provide the Hyperthreading feature it is recommended that it is disabled Use Drivers gt Computer Set the computer driver to ACPI it defaults to ACPI multiprocessor The Swath processor is a highly threaded application a thread is a semi autonomous sub program running inside the main application The relative operating priorities of the threads are carefully selected and balanced in Swath Hyperthreading appears to disable this prioritisation 6 2 5 Multi core processors Some users have found that Swath seems to run slowly on dual processor machines Better performance can sometimes be obtained by setting the processor affinity to just one core Either e Inswathprocconfig txt set PCHardware setSingleProcAffinity 2 If zero Swath uses all cores If 1 it uses core 1 2 gt use core 2 e Find Swath in the Task Manager right click select Set Affinity and un click one of the cores e Oruse a tool that sets this automatically when a program runs Such tools are available as freeware downloads from the Web 6 2 6 Windows Time Service The Windows Time Service helps to keep the PC time synchronised acr
21. it using Settings gt Control Panel gt Administrative Tools gt Services gt Windows Time Therefore a method of synchronising the PC time to GPS time should be considered Some integrated attitude and position systems provide this as part of the supplied package Alternatively an NTP Network Time Protocol time server can be integrated into the system If a distributed computing system is being used and one of the PCs is acquiring UTC GPS time e g via PPS then an NTP time server can be set up on that PC and NTP clients set up on the other PCs in the system These NTP servers and clients are software applications which can be obtained as shareware products for a few tens of dollars on the Internet Bathyswath surveys have been successfully carried out using such configurations The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 41 ETD 2004 Unclassified document ITER SYSTEMS 5 1 2 Serial port delays Bathyswath records the time of a data string when the first character is received so that the time it takes for the string to arrive is not a problem However there can be a large and indeterminate delay in that first character arriving Older PCs have the serial port built in to the PC card and the timing is reliable Newer PCs do not consider the serial port to be important and so implement it on some kind of sub bus if at all RS232
22. it is currently using over a UDP broadcast message Therefore you can see the address that it is set to even though the computer might be ona different IP subnet and therefore not be able to send commands to the TEM The Configure Sonar dialog in the Swath Processor program is used to view and change these settings refer to its Online Help page for more information use the F1 key on the computer 4 7 BATHYSWATH 1 AND SWATHPLUS USB Bathyswath 1 and SWATHplus systems use USB to connect from the TIU to the computer The Transducer Electronics Modules TEMs are supplied installed in a box called the Transducer Interface Unit TIU This has a separate DC or mains supply The TEM USB connectors are brought out the rear of the unit using cables inside the housing 4 7 1 USB Connection If the USB connection is made direct from the TIU to the PC the USB cable needs to be kept short in order to provide reliable communications If the TIU must be mounted at a distance from the PC consider the use of a COTS USB extender system such as a USB to Ethernet converter 4 8 TRANSDUCER CONNECTIONS The transducer connections are made with rugged polyurethane marine grade cable These are rather stiff and care must be taken in planning the route that these cables take to reach the TEMs Otherwise the cables may tend to lie in a location that obstructs the operator s access to the PC or other systems The connector is about 120 mm long Allow a b
23. mains power supply from battery if the mains supply e g from a generator fails Universal Serial Bus Acommon computer peripheral interface Unmanned surface vehicle Coordinated Universal Time a time zone equivalent to GMT Universal Transverse Mercator a commonly used format for representing latitude and longitude positions in a plane representation as Easting and Northing Unmanned underwater vehicle usually synonymous with AUV The V shaped mechanical assembly that holds a pair of transducers An industry standard data format commonly used for sidescan data These files use a xtf file extension A position in three dimensional space Three dimensional position plus amplitude An NMEA 0813 protocol message that is used with PPS signals to synchronise subsystem clocks The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 5 ETD 2004 Unclassified document 1 3 1 4 1 5 ITER SYSTEMS PREFACE The Bathyswath documentation is divided into three main parts Technical Information a summary of the technical parameters of the Bathyswath systems Ref 1 Getting Started this document the normal text part of the documentation which introduces Bathyswath and covers aspects such as software and hardware installation and deployment Online User Guide covering all aspects of using the Bathyswath as a hydrographic survey
24. more slowly on lower powered PCs Graphics 3D accelerated Must support OpenGL functionality graphics card at least 256Mb memory Monitor 17 or larger It is possible to open several display windows simultaneously so a large screen is advisable With laptops or panel computers choose a model with a large screen Memory 4Gb or more The more the beiter particularly for post processing Hard Drive 100Gb or more The system uses about 0 5Gb per hour so plenty of disk space is required for storage and processing An external USB disk drive is a practical alternative to a large internal disk drive Network interface Standard RJ45 For interfacing to Bathyswath 2 and Ethernet some auxiliary sensors The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 50 ETD 2004 Unclassified document ITER SYSTEMS ltem Specification Notes S Serial ports 6 off RS232 ports or For input of auxiliary data Caution is more required with plug in units e g USB these can sometimes have an unacceptable delay between a message arriving and it being presented to software USB ports 4 off USB ports 2 for TEMs 2 free required at least 6 are More needed if the system uses them recommended itself e g for mouse or DVD drive External USB disk drives and USB memory sticks require more ports Mouse Wheel mouse A mouse with a wheel is essential fo
25. reduces turning time For example if the lines are numbered 1 2 3 4 5 6 7 they may be run in the order 1 4 7 2 5 etc Create a convention for naming lines and stick to it Do not re use line names If it is necessary to re run a line use a different name For example if Line12 needs to be re run call the new line Line12A You may find it helpful to use a naming convention that tells you something about the line Examples of this are distance from the centre line and the direction that the line is run So line30E is a line 30 metres from the centre line run in an easterly direction Use the same line naming convention across the survey spread For example if lines have been planned in a navigation program and given names use those in the Swath program One or more cross lines running at right angles to the other lines helps with quality control and can be very useful where for example lines disagree where they overlap due to tide errors See section 7 2 The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 71 ETD 2004 Unclassified document 7 6 1 ITER SYSTEMS End of Survey Areas Before leaving each survey area use the Coverage View to ensure that sufficient coverage has been achieved The sonar range can be trimmed on this display to reflect the range for which data quality is deemed acceptable Re run any lines t
26. select a specific IP address select Use the following IP address enter the IP address and Subnet mask and click OK The Default Gateway can be left blank The Bathyswath 2 TEMs send out their status messages using UDP broadcast but ping messages from Swath to the TEM and data returning from the TEM are sent to specific IP addresses That means that you may see the Found message in the Status window showing that a TEM is present on the network even though the IP addresses of the TEM and computer are set up wrongly If that case you will get Error Ping Timed Out messages in the Status window when you make the sonar active So if you get the Found message but Ping Timed Out check the IP addresses and sub mask of the computer and TEM 4 6 1 Windows Firewall The Windows Firewall will attempt to block Ethernet communications between the V2 TEM and the Swath software unless you tell it not to The simplest solution but most dangerous is to turn off the Windows Firewall completely this leaves your computer open to malware attacks To do this open the Windows Control Panel go to System and Security then Windows Firewall and find Turn Windows Firewall on or off in the left hand menu Select Turn Off Windows Firewall in the Public network settings section A safer alternative is to add Bathyswath exe to the list of applications that Windows allows to communicate through the firewall The first time that Swath runs Windows shou
27. show patterns used both for beam forming multibeam systems and for Phase Differencing Bathymetry Sonars PDBS such as Bathyswath When collecting the patch test survey lines line keeping and vessel speed are important and harsh or sudden changes in direction or speed except where specified should be avoided The order in which the sensor misalignments and biases are determined may affect the accurate calibration of the swath system The operator should determine the biases in the following order pitch navigation timing error roll and heading Variations from this order or simultaneous determination of all values may need to be undertaken in certain conditions but any variation and reason for it should be noted by the operator Heave should be observed in no coarser than 0 05 metre increments Roll and pitch shall be observed in no coarser than 0 1 increments The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 63 ETD 2004 Unclassified document ITER SYSTEMS Heading should be observed in no coarser than 0 5 increments Navigation timing error should be observed in no coarser than 0 01 second increments Pitch and navigation timing error biases should be determined from two or more pairs of reciprocal lines 500 to 1 000 m long over a smooth distinct slope perpendicular to the depth curves The lines should be run at different speeds var
28. steps 7 through 15 substituting Transducer 2 for Transducer 1 16 Make sure that the calibration values recorded are used in every session file that uses these TEMs even for post processing 9 2 2 Connector checks Check the state of all cables and connectors Loose or damaged cables and connectors are probably the most common source of system problems Check the state of sea earth cables These are often implemented with bare wire at the sea end and can therefore corrode quickly This corrosion can occur for a significant length of the wire so it is often necessary to replace the whole wire Try to find a way of keeping seawater out of the wire 9 2 3 System checks A set of system checks is suggested under Testing in the on line help 9 2 4 Computing system checks As with any computing system a regular check of the system helps to keep the computer running efficiently and effectively This includes cleaning out old data performing backups of essential software and data 9 2 5 Patch test calibration Run a calibration patch test survey at the start of every survey whenever the sonar transducers or attitude sensor are moved and at regular intervals throughout long survey Campaigns See section 7 2 9 3 MONTHLY OR LESS OFTEN DEPENDING ON CONDITIONS 9 3 1 Inspect transducers for marine growth Marine growth on the surface of transducers will severely reduce their effectiveness All such marine growth should be removed
29. the second operator observing 6 When working during the hours of darkness suitable flood lighting must be available to cover the area of operation It is the responsibility of all personnel to take all reasonable precautions to ensure their own Safety and that of others working with them Safety aloft If required to work aloft i e installing GPS etc personnel must bring this to the attention of someone in authority at deck or at ground level Place warning notices that work aloft is in progress Ensure that the means of access aloft is secure and beware of wet or slippery ladder rungs and working areas When working on or near a radar scanner and other moving or radio frequency radiating equipment ensure that they are switched off and that the fuses have been removed and retained Personal protection Whenever the possibility of an uncontrolled hazard exists wear personal protection For example wear suitable gloves when handling deck cables etc Other items of protection include hard hats life vests ear protection work overalls and safety glasses Health hazard The inhalation of dust and fumes or any contact with lubricants when cleaning the equipment may be temporarily harmful to health depending on individual allergic reactions Treat with caution components that are broken or overheated as they may release toxic fumes or dust Do not inhale the fumes and ensure that the dust and debris do not enter open cuts or abrasions It is prude
30. the pole is robust Keep seawater out of the copper cores of the wire as corroded wires make very poor contact Inspect the cable at regular intervals when in use and replace it if the cores become very dull in colour or show other signs of corrosion e On hull mounted systems connect the Signal Ground to the vessel s sea earth Establish a star network where all grounds connect to a single point or a distributed star a set of stars connected together and avoid earth loops This is not always simple as there may be earth connections between the components of the system that are not obvious This is illustrated in Figure 4 2 below The information contained on this sheet is subject to restrictions listed on the cover page of the document Unclassified document ITER SYSTEMS GPS Star point TEM Attitude TEM sensor Beware of earth loops caused by pre existing ground connections PSU Ship s hull if metal a e ae transducers Figure 4 2 Schematic diagram of a typical earthing arrangement Make a drawing of the cables and connections of the system as it is installed on the boat including auxiliary systems and power supplies Not only will this help in detecting problems but also it will be useful for re installing the system if it needs to be removed for storage or use on another vessel It is not necessary to connect the earths of the two TEMs togethe
31. the seabed The file used by the Grid Processor application to store its data Uses an sxg file extension The Grid Processor application The maximum reach of the sonar measured horizontally along the seabed compare with Slant range Measurement of physical characteristics of waters commonly used to refer to those measurements and descriptions of navigable waters necessary for safe navigation of vessels A sonar system that measures depths by comparing the phase of the signal received on a set of vertically separated transducer staves Also called Phase Differencing Bathymetric System PDBS A unit that provides mains 120 or 240V AC power supply from a DC supply usually from a battery The distance between survey lines run across the seabed The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 2 Unclassified document ETD 2004 ITER SYSTEMS WORDS amp ACRONYMS DEFINITION LVC Multibeam NMEA Noise NTP Online help Patch test PC PC Clock PDBS Ping Post processing PRF Profile PSU QA Raw data file Line Voltage Conditioner a unit that cleans a power supply to reduce the effects of noise or possibly damaging spikes in the supply See Beam former National Marine Electronics Association the NMEA 0183 format is commonly used to send data from ma
32. where both 24V and 12V are needed all units that require 12V must be powered from the lower of the two batteries the one that is not supplying the 24V output Otherwise the voltage of one of the batteries could be connected directly through the ground or negative power lines causing serious equipment ITER SYSTEMS po 24 V systems 12V Battery mae Laptop PC Inverter Laptop PSU USB 12V Battery Common DC power in Bathyswath TIU ground point Sea earth Ship ground Other DC grounds e g GPS Figure 4 1 Recommended 12V 24V Power Connection 4 4 PC INSTALLATION Bathyswath operates with a Windows compatible PC The PC provides the operator interface and controls See Section 6 1 1 for the recommended PC specification and information on installing the software Laptop and tablet computers can be used The PC layout may vary depending on the model used 4 4 1 Data archiving A large hard disk can contain many days survey data However any disk fills eventually and so the data needs to be stored for archive External USB disks sold for backing up computer data can be very useful for this purpose 4 4 2 Serial interface This is a standard RS232 interface It is used to communicate with auxiliary sub systems such as the attitude sensor compass and positioning system Most modern PCs are no lon
33. which each TEM reset occurs and generates a time stamp for each sonar ping by adding this reset time to the TEM time clock In PPS mode the PC reset time is rounded down to the nearest second and the true GPS time in seconds is added Thus an accurate sonar time is available to the nearest millisecond even though the PC time is up to half a second in error For PC time errors of greater than half a second in either direction an error in sonar time of a whole number of seconds will be seen 5 1 4 PPS Pulse per Second Accurate clock systems often provide timing signals as electrical pulses sent out every second on the second These signals are called pulse per second shortened to PPS or PPS GNSS systems such as GPS provide very accurate clock signals a GNSS system is essentially a set of atomic clocks on satellites so the most common source of PPS in a sonar spread is the GNSS system The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 42 ETD 2004 Unclassified document 5 2 5 2 1 5 2 2 ITER SYSTEMS PPS INPUT TO TEMS The TEMs can receive a PPS signal from an external timing system This is often derived from a GPS input either from a GPS positioning system or from a dedicated timing system that uses a GPS receiver When the TEM firmware detects a PPS pulse on its data inp
34. you can see are consistent with the arrangement of the boat with respect to the dock e Check the space remaining on the computer disk for sonar data Allow for up to 5Gbytes per hour e lf the transducers are out of the water do a rub test Rub the face of each transducer in turn with your hand and look at the signal level in the Amplitude display Check that the level rises on the transducer you expect it to port or starboard A common source of confusion is to plug the transducers into the wrong TEM Tip use red and green electrician s tape on the port and starboard respectively transducer connectors and TEMS e Check that the attitude position and compass system outputs are consistent with what you expect for the current orientation of the boat e fthere is to be a long transit out to the survey area run up the sonar system as soon as the boat leaves the dock and make sure that the seabed profiles are consistent with the local area For example when operating alongside check that the dockside appears on the side that you expect Make sure that the profiles do not move up and down as the boat rolls This could be caused by o The transducers being plugged into the wrong side o The attitude sensor being mounted the wrong way around or configured so that it thinks it is pointing the wrong way The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 0
35. 2004 Unclassified document ITER SYSTEMS 5 4 5 Configuration settings Connections e Use Ethernet output from the attitude and position sensor using its native sensor format e g CodaOctopus MCOM or POS MV 102 format e Connect PPS from the attitude and position sensor to the TEMs see 5 2 e Use NTP or PPS to synchronise the PC clock However o Good sonar attitude time synchronisation is possible provided that the PC clock is accurate to the nearest half second in either direction o The Swath software can be configured to synchronise the PC clock to the time coming from the position system while this is only accurate to several tens of milliseconds it is good enough for sonar attitude synchronisation o Ifa separate NTP server is used make sure that it keeps well synchronised with the attitude system clock Swath settings e Inthe initiation file Sswathprocconfig txt 6 4 1 set e sonar timeUpdatelInterval O This suppresses regular TEM clock resets In PPS mode the TEM time should be more accurate than PC time so it is preferable to use the TEM clock without synchronising to the PC clock in the middle of survey lines e F180socket enabled al and other settings for the F180 or POS MV see 4 4 3 for details Note that the F180socket group applies to all Ethernet enabled motion sensors not just the F180 This sets the default start up state of the software it can be enabled using the
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37. 5 15 Page 74 ETD 2004 Unclassified document 9 2 9 2 1 ITER SYSTEMS o System timing errors see 5 e Assoonas possible record and process a small amount of raw data to make sure that the post processing process is valid WEEKLY AND BEFORE EACH SURVEY Calibrate the TEMs The transducer electronics modules TEMs measure the phase differences of the incoming sonar signals comparing each one against an accurate clock signal The electronics is set up in the factory so that two identical signals measured in difference TEM channels gives zero phase However all electronics can drift over time and this drift needs to be accounted for in a calibration process Rather than having to return the TEMs to a workshop to be set up a simple procedure run from the main Bathyswath software can measure and account for any phase offsets in the TEM electronics The calibration procedure is as follows 1 Power up the system including the TEMs and allow at least 15 minutes for operating temperature to stabilise 2 Make sure that the Bathyswath transducers are plugged in If these are not available use the Bathyswath TEM Calibration Box or a TEM transducer shorting plug contact Bathyswath if required Calibrating a TEM with its input open circuit will result in calibration values that are incorrect for survey use 3 Start the Bathyswath software 4 TEMs produced before October 2006 need a special Calibration Box supplied with
38. AU TON an E E E E E E E EET 11 Beet SUEY Or FOS OCC SSI anar E E AAN 11 3 3 TORRI ANE E A E N E vansese 11 3 4 STARTING THE SOFTWARE mariin ran n EE E EAE E een EEE OO 11 4 HARDWARE INSTALLATION AND DEPLOYMENT cscsscsscscssccccsccscsccsccscsccscescsccscsscscescsscscessssescnsossess 13 4 1 Be OPI NT el E eases aes wee E eee ee a ce we cee ec cee ee eee eee 13 4 1 1 Bathyswath parts list main assemblies ccccseecccsseseccseseccssecesasecsscusecssuusecsausesssueesssuasessausssssaes 13 4 1 2 Additional and optional equipment required for operational use sssseeseecececccneeeseeeeseeeaneeseeeess 13 4 1 3 Veariable angle transducer CHASSIS scccccseeeccsseseccnaeseccssnsessasecssausesssaueessauuecesausecssaseessuasessausssssaes 14 4 2 EM ETA orate a rete TE E E E E EE 14 4 2 1 Cabling required for a typical two transducer iNStQllAtiON ccccccsseeseccccssesececcansseccesnesecessaenseeeees 15 4 3 POWER Wye IRE VEINS sopresa AE E E ene aneemesanncsanness 15 4 3 1 Supplying Power from Batteries icvxccrcsstrcasdesveceasuciwaeisariieienseiansdertiscetea ia eee wants cede eae eeees 16 4 4 P CANS TALEATION swicssesnesaseitinatcpe cation ahanaiuannenereseutnwnseaneneunswaemdiinageheadonbesnatentut oes ane tnesdaageberseensanatieaguneaPosedees tt 17 BE WGA ARCHIVING aea a E O EE lonriacbas tua EE 17 4a Sename ICE ee ee ee een On ee ne E Oe ne eT Oe eon een eT ee eee nen ee 17 AAS Attitude system Ethernet interface
39. If a DHCP server is not found then it reverts to the default address 192 168 0 240 Therefore there are two ways of setting up a network to communicate with a TEM 1 Use a system that includes a DHCP server This could be a ship or office network or any network that includes a router generally Ethernet switches separate IP address domains but do not include DHCP servers Routers do include these servers So you could simply connect the TEM to a computer using a router with the TEM and computer plugged into it Or The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 18 ETD 2004 Unclassified document ITER SYSTEMS 2 If you don t have a router in the system or there is another device on the network that needs a fixed IP address Set the computer to a fixed IP address in the same domain as the TEM i e 192 168 0 xxx where xxx is any number up to 254 other than 240 Any other devices connected to the system need to be set to the same sub net Use a sub net mask of 255 255 255 0 To change the computer s IP address settings open Control Panel Network and Internet Network and Sharing Center Change Adaptor Settings and select Ethernet In Ethernet Properties scroll down the list to find and select Internet Protocol Version 4 TCP IPv4 and click Properties To use DHCP select Obtain an IP address automatically To
40. NEEE E ERNEA REAA AA EEEE EEEE AE ERNER NEES 68 Lad BOS SOC Cy N aA E EEEE AONE AE EO A NEEE ETOO AEN 68 Z2 Tide anad Height DOTTORI srisiriitesreirriri unenian einna AENEA AAEE ON AANS EEEE ANEN OEN 69 FO FOON eissi Ecen nE E AAE A E EEE E E E 70 7 6 RUNNING SURVEY LINES siroers irean anna EA EE E E EEI ane Soe eae de ee E ect eee 71 T O VVA S ra E E E ETE E E 72 8 POST PROCESSING SOFT WARE vi sissssescesnassnscverstacssesssncasbcsbedinnssieecevansswssweuseandsaesvaciseesbedanancessensasseieeeraeaaiass 73 9 MAINTENANCE ciiewcsnscecieusaccaenccctvecsenacviewaposegauusasncexceosvnsceaecuaemspetnesunsasnGensueasnecesesusenuseteesenpasndeuupansieunaesceers 74 9 1 DAILY AND BEFORE LEAVING PORT sicssascuveteaterccneacdunseuaseeessawidanndeaneaaeneasiancbanasbiaanidevstaaneaaateaundaneeaeannmestee 74 DA SOFC CCCI aAa A E A A E A A N 74 g2 FUNCUONGCNOCK iier De mre OOE OT OEE T OA OOA TEOR 74 9 2 WEEKLY AND BEFORE EACH SURVEY ccceceececeseecsscecsscessecusnscuseseeseeeueeeeeeeeeesseeesseeesseeeseeeeeeseeeeeeeeseeeseeeess 75 921 Calibrate the TEMS ssrerrisinrei t isnin rir iai NEE Eee N AEEA EEEE E AN AEA Ei 75 g22 Connector COCKS rrini raran NEN NEENA ER EAE NOR AAAA RRENEN 76 LS Peo T S aE A AN oe EE E N EN ene ne 76 g24 COMPUTING system CNECKS viceccccccssscacssevereosseceeevsscnsvavesasesecdeenssendbev nnsesscuseessevevevdeaveseedserssaceveverevesssees 76 D2 POUCHES SE COON OO ocine e e AT irei 76 9 3 MONTHLY OR LESS OFTEN DEPENDING ON CONDITIONS
41. S alternative Heading Multib eam PDBS Run lines A B C and D and combined numbered lines all at a constant and same speed 4 5 kts Run line E at 7 8 kts line F at 2 3 kis Both lines run in the same direction Version 5 00 13 05 15 Page 65 E D 2004 Unclassified document ITER SYSTEMS Figure 7 1 Patch Test Patterns 7 3 POSITIONING SYSTEM CONFIDENCE CHECKS Confidence checks of the primary positioning system should be conducted and recorded in the survey records at least once every week A successful confidence check should compare positions from the primary system to simultaneously observed check positions from a separate independent system with a positional accuracy better than 10 metres The inverse distance should not exceed 10 metres The primary and secondary positioning systems should use different correction sources systems The confidence checks should be an integral part of the daily survey data record 7 4 CROSSLINES 1 1 1 General The regular system of survey lines should be supplemented by a series of crosslines for verifying and evaluating the accuracy and reliability of surveyed depths and plotted locations Crosslines should be run orthogonally or diagonally across the planned survey The length of crosslines for swath surveys should be at least 5 percent of the length of all planned main survey lines Comparisons should be made between main scheme lines and crosslines at 1 of all crossings
42. STEMS 1 INTRODUCTION 1 1 REFERENCES Ref 1 Bathyswath Technical Information OD 5001 _Bathyswath information EN docx available at http oathyswath com sites default files OD 5001 Bathyswath 20information EN pdf Ref 2 Bathyswath Grid Processor Manual Bathyswath Grid Processor Manual pdf Ref 3 Installing Bathyswath Installing Bathyswath pdf Ref 4 Bathyswath Online Help installed with the Bathyswath software Ref 5 Bathyswath website at http oathyswath com In particular see the support pages at http oathyswath com bathyswath support 1 2 GLOSSARY amp ACRONYMS WORDS amp ACRONYMS DEFINITION PPS A system of electronic pulses for synchronising subsystem clocks 3D Three dimensional AGDS Acoustic Ground Discrimination System a system that uses data from an echosounder to determine the type of the seabed ASCII A common computer format for human readable text data Attitude The angular orientation of the system AUV Autonomous underwater vehicle Bathymetry Measuring depth Bathyswath H Bathyswath L Bathyswath M Beam former High frequency Bathyswath variant working at 468kHz Low frequency Bathyswath variant working at 117kHz Medium frequency Bathyswath variant working at 234kHz A sonar system that generates discrete beams of angular measurement to the seabed Synonymous with multibeam CAD Computer aided design computer software drawing packages CD Compact disk Chart datum A national
43. Socket Properties dialog independantly of the setting in the initiation file e F180socket timesyncEnable O If the PC time is synchronised using NTP or similar otherwise F180socket timesyncEnable 1 this causes Swath to update the PC time from the attitude sensor s data streams at the start and end of survey lines when changing the sonar from inacive to active and vice versa This is good enough to maintain sonar attitude synchronisation within the necessary half second accuracy Note this time setting feature may not work under Windows Vista due to security settings Try disabling User Access Control e Whilst setting up the system and performing initial tests try selecting reporting timingDebugIinfo 1 This continuously prints the ping attitude time difference to the Status window allowing a trace of possible synchronisation errors e Inthe Swath program o Configure the attitude and position Ethernet interfaces as explained in section 4 4 3 o Select Sensor Clock in the Attitude and Position set up dialogs The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 46 ETD 2004 Unclassified document ITER SYSTEMS o Select Sonar Clock in the Sonar dialog o Enable PPS in the Sonar dialog 5 5 PC CLOCK TIMING CONFIGURATION 5 5 1 Description In this mode all data is time stamped with the PC clock time at the moment of
44. T E E eee eee 63 The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page v ETD 2004 Unclassified document ITER SYSTEMS 7 2 SENSOR MISALIGNMENT PATCH TEST sscccccccssseccceceseccceceeseceseeeusecsseeeuecssseueecssssuunecsssseuaeesessueneeeeeseuensss 63 7 3 POSITIONING SYSTEM CONFIDENCE CHECKS ccs iaccacstsudcvcscdadsavebSuniveieds iene phnstis ncsenceersedenivace ocboeesbaediv esetadensvanuedee 66 7 4 Boac aster A A ge E nc genet A spines ew mtn Saleen sacle dase oe aoe ctipan E T E 66 Dl ICI GN E E N sensu E E P EEE A E P A estes S ot 66 LZ NOU TINE URYEY CHECK couron i reina E E E 66 1 3 UNCERTAINTY BUDGET ANALYSIS FOR DEPTHS iicerancnic sanserne Ta EEEE EENET E 67 Fd Measurement CIT OF arneraisriie ren aT nE AEN E IE EREET TOE EE E 67 742 Tiansoucer 6 0 eal 0 gee nm Ena TOENE AUNAR en ee Pen no ee 68 7 4 3 Settlement ANA SQUAT error ou ccccssesccccussessceccseeesecccsauseeeessauseecsssuuseecssauesecsssauaecessuauneecessaueessssaansessnas 68 De SONG VELOCI OTTO oar E tic eats oc eet cee wae see et Sc cies ek esses 68 Ta AOO aa ol O eee reper ree emer erent nent rrr Aet ee Mer reN Teer Cte ere ne crrr nate rere rrr err eer ree rare er re 68 746 lide water level C11 Of sesdivontesesenovennvavatensdeaaeasdarmeounabeoneantatuatenstonavenabsoanvnah vonceniaanabenelenaesdebewanchabuaanentee 68 7 5 ENVIRONMENTAL MEASUREMENTS vwuscaacasancomeacens ce
45. TO 47 3933 Ponia PONENS cirera ne ana e A E E E E O N NE E ECNE O A 47 oe GOV SECTION e E E E E A E A A E E A E E E 47 5 3 9 Con gurdon SCLUNOS oisrinerert enrian e netin Te eer EEEIEE TEE NOE ERENCE EOE EENEI TOKEN ETERS 48 5 6 NIONITORING SYSTEM MINTO Gee Tinere n E E EE E EE E ONE NOEN E eee 49 IrL N 216 a E E T 49 aos T V Nae E AE E A EE E E E EA TE EEE 49 96 3 SONUV VICWS sripaiini sistin iin renari iaa EREEREER EIA AANE AREA TERNARA OEE REAR 49 564 Correcing Tor TIMING Ell US irisi r irinn as Tanier AER ATOT OE T E E 49 6 SOFTWARE INSTALLATION saoiri E ANNAA 50 6 1 DINE DTN r E E E A 50 6 1 1 Recommended PC Computer SPCCIPICATION scccccccnssesececenneseececscesecccuauseecessauseecsssuunsecsssaaeeesssaees 50 6 2 COME GOR TON oeei S E EE E E E oes puaenedancens 51 G2 Windows VCS ONS acess ec e cee ETE A T NEEE 51 622 WIndows SCCOTILY SCLUNGS orsi Borana ai E N N EE O IEEE ANAE 51 6 23 Windows performance settings axanscssiccstessccaisevaseatsanrsesgevabeostevdvieasgeeancnniadaesonntesiuasseanevdieanioeeateaneeatas 51 B24 PY DCMINCOGING rrrierieieriirirerriniss ierit n ini nainot ni EORPA ROEN ENARRARE ENERE ENAR 52 La MUO EP I S I a E E E E E A E vida aes 52 620 Windows TMe SOV CC serisiinet ienna ian san E NEEE NNE EEE AAEREN AAEE EENE EEE ANAON 52 6 2 7 Screen savers and power off MMOCES cseseeccccsnssececcaesececcseeseesecsuusecsessuuneecssscuneeesssaunsecsssansessssages 52 028 DIPIAY TESOL OV errai ir nner ons ener Reon meen
46. ables to the pole Loosely fix the fore and aft guy lines to their hard points Run the belly strap under the vessel and loosely fix it to its hard point A shackle or similar weight loosely passed over the line will help to sink it under the vessel Be sure that the belly strap does not foul the propellers or other hull fixtures Lift the pole over the side and clamp it in place Three or more people are required for this task Secure the three guy lines with adequate tension to steady the assembly when underway Care should be taken not to bend the pole too much when doing this However a small amount of bend in the direction of the belly strap is inevitable The trick here is to fix the side clamp so that the pole is angled outwards slightly and then to pull it in with the belly strap Route the cables through the vessel and connect them to the Bathyswath electronics as specified above Apply power to the Bathyswath system and start the Swath software If the attitude system is fitted in an underwater bottle on the transducer frame note the roll and pitch angles Use the Text window in Swath make sure that the angles are displayed as numerical text The sign convention of pitch is such that it is positive when the vessel is bow up Roll is positive port side up The pitch angle can usually be brought to zero by tightening and loosening the fore and aft guy lines as appropriate The roll angle can be altered by tightening and l
47. achieved using an independent NTP server In this case all the acquisition computers will need to be networked and running NTP client software Given this arrangement all PCs will be synchronised It may also be possible to achieve this by using a PPS controlled computer as the NTP server but the problem with this solution is that some of the PPS solutions provided by survey software will maintain survey acquisition clocks but may not maintain the PC clock This is certainly the case for Hypack and may be the case for QINSy and PDS2000 Care also needs to be taken to check all equipment is installed correctly and that all cabling is safe and does not interfere with other systems 7 1 2 Bathyswath hardware checks Section 4 covers installation and deployment issues to note for Bathyswath and auxiliary sensor installation Pay particular attention to sections 4 11 Installing Position Heading and Attitude Subsystems 4 13 Transducer Installation General and 0 Connect the power to the power inlet port on the TEM housing The Bathyswath 2 Deck Unit takes DC power 9 to 14V The Bathyswath 1 TIU takes DC power 9 to 32 V Both systems are supplied with a mains to DC converter unit DC power can be provided from a ship s power system or from a separate battery If working with mains power connect the mains to DC converter to the mains supply and the output lead to the TIU Grounding and Earthing For grounding and earthi
48. acquisition in the Swath software 5 5 2 Motivation The advantages of this configuration are e Errors due to differences in system clocks are eliminated e Errors due to drift between clocks are eliminated e Errors due to Windows time sensing are eliminated e tis quicker to set up e tis the only possible configuration when using serial data interfaces from attitude sensors that do not include time data These include the industry standard TSS1 and EM3000 formats 5 5 3 Potential problems Disadvantages of PC clock timing compared to sensor clock timing include e Times cannot be related back to universal UTC GPS time to better than a second or so and only then if the PC clock is synchronised in some way e Time synchronisation between sonar and attitude data is subject to communications delays from both systems and therefore roll correction will not be quite as good in high roll rates 5 5 4 System diagram Attitude System serial p Serial to Ethernet device serial ma GPS Position System Ethernet Bathyswath TEM E Ethernet gt Ethernet Switch Ethernet PC Computer Figure 5 3 Bathyswath 2 PC Clock Timing Configuration The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 47 ETD 2004 Unclassified document ITER SYSTEMS
49. ade with an accuracy of about 10 mm The information contained on this sheet is subject to restrictions listed on the cover page of the document Unclassified document 4 13 3 ITER SYSTEMS See the Online User Guide for more information on measuring sensor positions and orientation definitions Transducers should be mounted so that e The top of the front face is horizontal i e there is no pitch offset e The front face points downwards at 30 degrees to the horizontal That is the surface of the front face is at 30 degrees to vertical e One transducer points port and the other starboard both at 90 degrees to the direction of motion of the vessel Other configurations are possible and the software will correct for any transducer orientation However the angles described above are optimal for most survey conditions and the transducers should be set up to within one or two degrees of this Any slight offsets from these nominal angles can be measured using the post processing patch test calibration procedure In some cases it can be beneficial to adjust the vertical angle of the transducers If operating in very deep water close to the depth limit of the frequency option being used then increasing the transducer angle to 40 or 45 can improve performance Similarly if the application is concentrating on scanning objects close to the water level then pointing the transducers horizontally or even slightly upwards can giv
50. anything on perform a quick safety check see section 9 1 1 Make sure that the system power is active this might be DC or mains Turn on all the auxiliary systems such as attitude system position system and compass If starting up in cold and or damp conditions particularly if the temperature is below freezing use the cabin heater to bring up the conditions to a temperature above freezing and so that there is no condensation on internal surfaces Otherwise as the computer and electronics warm up they may experience internal condensation which could cause damage Turn on the system computer Turn on the Bathyswath hardware 3 4 STARTING THE SOFTWARE The Bathyswath installer places shortcuts to the software in the Windows Start menu Click on the start menu in the bottom left corner of the screen select Programs Bathyswath then Bathyswath and finally click on Online Help This is the online help system Find the Welcome page and go from there The main Bathyswath programs the Swath Processor and Grid Processor can also be started from the Bathyswath start menu as can a soft copy of this Getting Started manual The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 11 ETD 2004 Unclassified document ITER SYSTEMS These programs can also be started by double clicking on file icons for th
51. arate compass feed is not required Alternatively some heading sensors use a pair of GPS antennae and measure the angle between them Bathyswath obtains heading through two main channels Only one is required for processing although comparing the two is a useful diagnostic check The two channels are e A direct connection to the compass e Via the attitude sensor In some cases the attitude sensor takes in heading from the compass combines it with high frequency yaw from its own gyros and transmits the combined heading value back to Bathyswath Bathyswath reads the compass information in the standard NMEA format As specified in the NMEA format this is an RS232 serial link typically running at 4800 baud with 8 bits no parity Most attitude sensors also use this format and some models will read other formats as well Refer to the sensor s own manual The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 25 ETD 2004 Unclassified document ITER SYSTEMS Sometimes the compass provides heading information in a format that can be read by the attitude sensor but not by Bathyswath In this case the heading channel that passes through the attitude sensor is used in processing and the direct link to the Bathyswath is ignored If a fluxgate compass is used as a heading reference it should be mounted away from magnetic fields on the vess
52. as gently as possible do not use sharp tools or mechanical grinders otherwise the transducer face can be damaged 9 3 2 Corrosion check Check all items for corrosion Fit sacrificial anodes inspect them at regular intervals and replace them if necessary Such anodes can be obtained from any chandler s 9 3 3 Cleaning Clean the computing and electronics systems Use a damp cloth no solvents Do not use tissue paper to clean the display screens Display screens use a soft cloth lightly moistened with a mild detergent solvent then wipe clean with a soft dry cloth The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 76 ETD 2004 Unclassified document ITER SYSTEMS Casing wipe over with a soft cloth lightly moistened with a mild detergent solvent Connectors clean connectors with IPA alcohol spray or switch cleaner See section 9 6 2 for instructions on cleaning and greasing the underwater connectors 9 4 YEARLY 9 4 1 Transducer capacitance check A check of the transducer capacitance using a simple hand held multimeter can give an indication of problems with transducers or their cables and connectors before such problems are noticeable in the sonar results Measure the capacitance between each pair A A etc and between the members of the pairs and their screens A A screen etc and note them down in a system logbook The
53. ation contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 49 ETD 2004 Unclassified document ITER SYSTEMS 6 SOFTWARE INSTALLATION 6 1 6 1 1 The Bathyswath real time software package the Swath Processor or Swath is only supported on Microsoft Windows Real time data acquisition using the Bathyswath USB TEMs is only supported under Windows 8 7 Vista and XP Swath will work in replay mode on most installations of Windows 2000 95 98 Me and NT However no technical support is provided for these older operating systems The Swath application requires considerable processing power in order to store process and display the large data volumes of data that the system acquires See the Recommended PC Computer Specification below for full details INSTALLATION An installation program is provided with the swath software This automatically installs the program and all other software modules that it requires To install the Swath software simply run the Bathyswath msi program provided See Ref 3 for more information Recommended PC Computer Specification ltem Specification Notes S Operating System Windows XP Bathyswath is compatible with Windows Windows Vista 64 bit or 32 bit different installers are Windows 7 or 8 available for each Processor Processor P4 3GHz or We recommend at least this processor better power The system operates
54. be used to monitor changes during the survey to allow the operator to make a decision on when to take a profile It is advisable to take a profile at the start and end of the first line in the area to check whether the SOS profile is uniform within the area Profiles should also be taken at the start middle and end of the day but need to be taken at a frequency sufficient to be able to track changes within the survey area When a profile is taken the time and position of the profile should be noted and logged In the swath program in the SOS dialogs there are Here and Now buttons to help the operator capture this information SOS can vary greatly depending on what environmental regime you are under In a river you would expect the SOS to be well mixed and fairly constant but be aware where other river or streams enter the river and also close to the coast Estuarine areas can be particularly difficult having river outflow making water brackish There can be a salt wedge or fresh water surface layer In these conditions SOS profiles should be frequent and survey lines should be short and within discrete areas to try to mitigate any problems that the conditions may present Coastal bays can present problems where the shallow water can experience warming but may also have fresh water discharge from rivers Offshore areas may show a significant change in the profile in deeper water 7 5 2 Tide and Height Datum Depths measured by a sonar
55. can accept no responsibility for damage to equipment or risk to personnel from the use of such methods 4 18 FINAL TESTS AND MEASUREMENTS 4 18 1 Safety Once all the equipment is installed review the arrangements for safety Pay particular attention to the following e Ensure that all equipment and cables are firmly fixed down so that they cannot come loose when the vessel moves e Ensure that cables do not obstruct walkways e Ensure that all connectors are thoroughly screwed home Pay particular attention to underwater connectors if used Check O rings e Ensure that all mains power cables and connectors are in thoroughly dry locations 4 18 2 Tests Make a final check of the attitude sensor orientation using the Swath Text view Refer to the Online User Guide for information on testing and diagnostics If necessary run the attitude system calibration and set up procedures see section 4 11 1 The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 39 ETD 2004 ITER SYSTEMS made Also measure the fore and aft distance from the transducers to the centre of pitch of the vessel These measurements will allow you to estimate the change in water depth of the transducers as the pitch of the vessel changes with speed Unclassified document ITER SYSTEMS 4 18 3 Measurements In order that the Bathyswath data can be processed to produce a depth model the
56. can also be run from 110 240V AC mains Inverters can also be used to provide mains power from batteries These sometimes give a very noisy output so it is advisable to use high quality units or use the DC directly Small generators are available that provide 12V DC or 24 V as well as mains AC power and are acoustically quiet These units can be very useful on small vessels Refer to section 4 10 for advice on grounding and earthing power supplies Supplying Power from Batteries The Bathyswath Transducer Interface Unit TIU is suitable for receiving power from a 12V battery or two such batteries in series Equipment that requires mains can be supplied from an inverter However it is preferable and safer to use DC powered equipment on small boats where possible For example when using a laptop computer use a DC power supply in preference to the mains supply unit that came with the laptop Such DC power units are sold for use in motor vehicles Some systems require both 12V and 24V See Figure 4 1 for a recommended layout Warning failure and a risk of over heating and fire It is good practice to establish a single ground point for mains ground and DC power negative rails See section 4 10 The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 16 ETD 2004 Unclassified document When supplying power from two batteries in series in systems
57. ceo eae soap E ue ss seed uence saat E A 24 4 11 INSTALLING POSITION HEADING AND ATTITUDE SUBSYSTEMS sscscescecescecsscecsscucescucneceseseueeseeeesseeceeeeeeeeseeess 24 4 11 1 AlUl de sensOT snsrssernasinie A aaa aaa ee eee ne ee cre eee eee en ee 24 4 11 2 COO eee E E EE E A O EAEE A E E E ATE T E ee ee ee 25 4 11 3 POS O a a E A E EEE EES EEEN 26 4 11 4 ELE AE EN E E A EE E AE ET E E T 26 4 11 5 Combined attitude heading and position systemMS ccccccssesseccccsesseccccauseecescaensecsssauseeceseanseeeses 27 4 11 6 Aude sys eim EtNeErmner INET IOE airinn nane a Eor T ERE ETE sees 27 4 11 7 SPECO OU S N ONS eaae aiaa eE EE AE AEE EE AER 28 4 11 8 ECNOSOUNGEIS opsirni rrian anan Eaa ETE AENEA TEENER OEA EREA AATE REEE REATOR 29 4 12 WET END DEPLOYMENT vornimosnti reeni ionen pi ates E E E E E Ea 29 4 13 TRANSDUCER INSTALLATION GENERAL ssssisirisssissrireususrsruniinesu ei issn in n NEET EE AE E ea e es 29 4 13 1 Transducer VESTOS crrr rT e E E EE E E E Eei 29 4 13 2 Ton dUCErlOCAUON sirere e tanei Ear ATOAN EE OEE EOE A EOT 29 4 13 3 PAS U T O E A EE A T EE eee 30 4 14 HULL MOUNTED CONFIGURATION sn cssussecncsotarecmantenettasdanadabeudacanaaiciwoeneediued noesoucdateasiideennobaiucmuadeeesantanadsteudacanaens 30 4 14 1 Possible hull configurations ccssseeccccsseesececnsesseccccsussecsscnueecsecausecssaauseessaaunsecessaunseesssausseesssaens 30 4 14 2 Fush MO IIA INO cae care tec researc i esate tee O E OTEO OENE NEE O 31 4 1
58. cer Interface Unit is intended for use on board in a protected area and not directly exposed to the outside environment The Bathyswath 2 Deck Unit is designed for use on deck or in open boats and is designed to be watertight to IP68 However it should not be mounted in a location where it will be submerged for long periods of time The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 8 ETD 2004 Unclassified document 2 2 3 2 2 4 2 2 5 2 2 6 2 2 7 2 2 8 ITER SYSTEMS Compass safe distance It is recommended that the Bathyswath equipment be installed greater than 5m from a standard or steering magnetic compass This equipment has not been tested or verified as meeting the compass safe distance specification in EN60945 EMC requirement conformity The Bathyswath Transducer Interface Unit meets the EMC electromagnetic compatibility requirements of EN60945 and is therefore CE marked Safety on deck At all times when working on deck observe all reasonable safety precautions The following is a guide to safe working practice 1 On deck wear hard hats at all times 2 On deck wear life vests and safety lines at all times 3 On deck suitable deck boots or safety boots shoes must be worn at all times 4 Ondeck wear suitable clothing at all times 5 Do not work alone on the deck A minimum of two operators is required with
59. ch angle is more than two degrees from zero consider lifting the pole and adjusting the angle bracket to bring the transducer and attitude sensor assembly level e lf the attitude system is not fitted to the transducer frame examine the angle of the seabed by eye However remember that the seabed under the ship in dock may not be flat e Measure the depth of the centre of the transducers relative to the water line Note that this can change once the vessel is moving at survey speed It will also change with loading and the location of personnel Use the fixed marks on the pole if you fitted them Record the pitch angle whilst this depth measurement is made Also measure the fore and aft distance from the transducers to the centre of pitch of the vessel These measurements will allow you to estimate the change in water depth of the transducers as the pitch of the vessel changes with speed SIDE MOUNT CONFIGURATION The side mount uses the same pole attitude sensor and transducer frame as the bow mount but without the angle bracket and bow brackets Alternatively a pole may be custom built for a particular vessel This may be required if the pole needs to be longer than the Bathyswath pole supplied or if a swinging pole is required to allow quick recovery at sea The advantages of a side mount are e tis usually more rigid than a bow mount e t can be deployed at sea provided that suitable fixings are designed e Itis stable in pitch
60. d information via the contents index or full text search From any topic you can follow the hyperlinks shown in coloured text and underlined to see additional information on the same topic or related topics Section 3 provides a Quick Start guide for first time users of Bathyswath All Bathyswath users should carefully read the safety instructions in section 2 BATHYSWATH WEB PAGE Latest information on Bathyswath and related products can be found on the Bathyswath web page www bathyswath com In particular see the support pages at http bathyswath com bathyswath support The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 6 ETD 2004 Unclassified document ITER SYSTEMS 1 6 BATHYSWATH SUPPORT Technical support is available from Bathyswath Time limited support may be provided with the sale after which yearly support packages can be purchased A convenient route to support is to email support bathyswath com The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 7 ETD 2004 Unclassified document ITER SYSTEMS 2 HEALTH amp SAFETY 2 1 CAUTION The information given in this manual is the best that is available at the time of issue but must be used with discretion The text in this manual does not override statutory requirements concerning good w
61. d on a dedicated survey vessel the transducers and attitude sensor will be fixtures on the vessel 4 14 1 Possible hull configurations Broadly there are two possibilities flush mounting or chock mounting The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 30 ETD 2004 Unclassified document 4 14 2 4 14 3 4 14 4 Version 5 00 13 05 15 Page 31 ETD 2004 ITER SYSTEMS Flush mounting Mounting the transducers so that the active face of the transducer is flush with the surface of the hull will have the minimum effect on the operation of the vessel However this requires that the hull include a section at the correct angle 30 from the vertical and in a suitable aeration free position This option requires that a hole the size of the transducer must be cut in the hull Typically a watertight box section will be fixed into the hull so that the integrity of the hull does not depend on the presence of the transducer A watertight tube may be run from the back of the box up to the location of the instruments which should be above the water level Chock mounting In this option the transducer stands out from the hull It is backed by a mounting frame and surrounded by a fairing to ease the flow In this case there is a little more resistance to flow but this is not likely to affect vessel motion The shape of the chock may cause the flow over
62. d time to depth In addition this error encompasses depth errors associated with refraction for swath systems The expected minimum is 0 2 metres and the allowable maximum is 0 3 metres plus 0 5 of the depth 7 4 5 Heave error This error is directly dependent on the sea state and the sensitivity of the heave sensor but is not dependent on depth The expected minimum is 0 05 metres and the allowable maximum is 0 2 metres 7 4 6 Tide water level error The practical minimum is 0 2 metres and the allowable maximum is 0 45 metres 7 5 ENVIRONMENTAL MEASUREMENTS 7 5 1 SOS Speed of Sound The sound velocity profile must be known accurately in swath sounding for two reasons First as in all echo sounding the depth is computed from the product of the velocity and the elapsed time between transmission of a sound pulse and reception of its echo Second since sound pulses travel at oblique angles through the water column variations in the velocity profile will affect the path of sound through water The sound path from the transducer to the bottom and back will affect not only the observed depth of water but also the apparent position of the observed sounding With very wide swath systems correction for speed of sound is extremely important to reduce the effect of any sound path refraction In areas where the speed of sound at the surface is likely to change significantly across the area a surface mounted continuous reading SOS sensor should be u
63. djustable bracket so that when the pole is secured to the bow the transducers are horizontal Adjustment is accomplished by loosening the four bolts that run through the radiused slots The bow angle may be estimated as follows With the vessel at rest alongside a quay hold an adjustable set square or mathematician s protractor at arm s length and use your eye to align the bottom of the square with the edge of the dock or surface of the water and adjust the square so that the moving edge aligns with the rake of the bow Fix the square at this angle and then transfer the angle to the bow mount or 90 minus the measured angle depending on the angle taken It is necessary to know the depth of the transducers below the water line when the vessel is under way This depth can change with loading and speed You may therefore find it helpful to fix markers to the pole at intervals Electrician s tape wrapped around The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 34 ETD 2004 Unclassified document ITER SYSTEMS the pole is good for this Carefully record the location of each mark relative to the centre of the transducers Using cable wraps tidy the cables from the transducers and the attitude sensor securing them along the pole Shackle the ends of the long sections of the ratchet straps to the holes provided on the V brackets Attach a safet
64. e Swath Processor session files sxs and the Grid Processor grid files sxg in Windows Explorer See section 6 2 for more detailed instructions on starting the software The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 12 ETD 2004 Unclassified document 4 1 4 1 1 ITER SYSTEMS HARDWARE INSTALLATION AND DEPLOYMENT Bathyswath has been designed to be utilised on a variety of inshore survey craft The systems are capable of being deployed permanently on dedicated survey vessels or vessels of opportunity such as fishing vessels and harbour master s launches There are several distinct methods of mounting the transducers and the attitude sensor Hull mounted transducers remote attitude sensor see sub section 4 14 Bow mounted pole mount attitude sensor alongside transducers see sub section 4 15 Over the side pole mount attitude sensor alongside transducers see sub section 4 16 Buoy mount see sub section 4 17 Bathyswath can also be installed on remote vehicles such as remotely operated vehicles ROVs Unmanned or autonomous underwater vehicles UUVs or AUVs and autonomous surface vehicles ASVs Installation on such vehicles usually requires interfacing and installation design specific to each vehicle ITER Systems can provide detailed advice on request EQUIPMENT LIST Bathyswath parts list main assembli
65. e better results Transducer cabling The signals from the transducers are at very low voltages and at radio signal frequencies They are therefore prone to external interference unless care is taken during installation The cable length between transducer and electronics rack should be less than 20 metres and less than 15m for Bathyswath H systems The transducer cables supplied are shielded twisted pairs Similar cables should be used if the installer supplies alternative cables to connect the transducers to the rack Core sizes must be 16 0 2 0 5 mm or greater Avoid cable routes in close proximity to equipment or cables operating at radio frequencies or carrying electrical power Bathyswath 2 transducers are fitted with preamplifiers so this length restriction can be relaxed a little However it is always best to fit the Bathyswath TIU as close to the transducers as possible and then to use Ethernet to connect from the TIU to the computer Transducers shipped after 2008 are usually fitted with a 1 metre tail joined to an extension cable with an underwater cable This allows different cable lengths to be fitted without needing to modify the transducer The transducers are activated by a transmission pulse at approximately 450 V rms This can cause interference with other equipment and could be a hazard to personnel unless precautions are taken 4 14 HULL MOUNTED CONFIGURATION Where the Bathyswath is to be permanently mounte
66. e strongly recommend that operators obtain the appropriate safety training The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 10 ETD 2004 Unclassified document ITER SYSTEMS 3 QUICK START This section is aimed at new users of Bathyswath and gives a step by step guide on how to use Bathyswath for the first time We recommend that new users read Bathyswath Technical Information Ref 1 before starting to use the system If you are using the system operationally on the water carefully read section 2 Health and Safety 3 1 ONLINE HELP The main reference for Bathyswath is the online help This quick start guide takes you as far as starting up the software to the point where you can use the online help alongside the software 3 2 INSTALLATION See the Installation Guide Ref 3 for instructions on installing the Bathyswath software and then read section 6 for guidance on how to configure it for use with your sonar hardware 3 2 1 Survey or Post Processing If you are using Bathyswath for surveying you will first need to install the system hardware read section 4 If the software is being used for post processing or training it can be used without the Bathyswath hardware 3 3 TURNING ON If you are running the Bathyswath software without the survey hardware on your desktop or laptop computer proceed to section 3 4 Before turning
67. ed Open an Amplitude window The vertical scale is signal amplitude and the horizontal scale is range The TEM output is logarithmic so one division at the bottom of the window represents much less of a step in signal than one division at the top The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 22 ETD 2004 Unclassified document ITER SYSTEMS With the transmit signal disabled the noise level should be below the second division of the screen less than 10 000 for the arbitrary 16 bit numerical scale and as low as possible If it is above this effort should be taken to reduce it and if it is approaching the middle of the scale 30 000 system performance will be very severely degraded It is not advisable to proceed to survey with this level of noise still present The target level can be established by replacing the transducer plug with one that shorts out the signal inputs Note that the signal level rises considerably if nothing is connected to the TEM s transducer connector at all this is normal and so noise reduction investigations must be done with the transducers plugged in and in the water Examine the amplitude display for repeating waves or spikes of signal noise These may be caused by electrical or acoustic interference from other systems or they may come from the power supply used These should be identified a
68. el engine generators and large ferrous objects The masthead is often the best location The compass must be installed and aligned in accordance with its own Manual and good Survey practice Heading information can also be obtained from course made good which is the direction between successive positions from the GPS system However this is far less accurate than the heading from a compass and should only be used as a last resort if heading from the compass or attitude system is not available See the Online User Guide topics on Calibration for further information on measuring heading and configuring heading offsets 4 11 3 Position The position of the vessel is obtained from a positioning sub system The position is usually derived from GPS although several other types of system exist The position interface is an RS232 serial port A range of serial line parameters may be used Bathyswath may be set up to accept various settings of baud rate number of bits parity and stop bits See the Online User Guide for how to set up position inputs In order to maintain the accuracy of the survey the positioning system should be accurate to 1 metre or better with an update rate of 1 second or better Surveys that require better depth accuracy may require better position accuracy than this Some positioning systems provide a measurement of height above datum Bathyswath records this height information and it can use it instead of tide measu
69. elative to both the sonar transducers and the positioning system It is necessary to account for the difference in position between the attitude system position antenna and sonar transducers This is called a lever arm correction In preference use the attitude sensor s internal lever arm correction facilities rather than the lever arm corrections in the Swath software This is because the attitude system has more information at its disposal than the Swath system and hence should be able to make a better correction Make sure that the lever arm correction is not made in both systems That is if the attitude system can perform the lever arm correction and output attitude and position valid for the location of the sonar transducers set the position offsets in the Swath system to zero See the Online User Guide topics on Calibration for further information on measuring and configuring the attitude sensor offsets 4 11 2 Compass A compass provides heading information Most gyrocompasses can be interfaced to Bathyswath For smaller installations a magnetic fluxgate compass can be used but this is less accurate and more prone to disturbance from external metallic objects including the ship itself Some attitude systems provide heading directly either from a built in compass or because their gyros are accurate enough to detect the rate and axis of the Earth turning and therefore are gyrocompasses in their own right In this case a sep
70. end radius of about 50 mm Connect the transducer connectors to the connections on the front of the TEMs The selection of the TEMs in terms of port or starboard transducer is made in the Swath software Sonar set up dialog Conventionally the top TEM is connected to the port transducer It is advisable to mark the transducer connectors with red and green tape to identify which one is which 4 9 POWER CONNECTIONS Connect the power to the power inlet port on the TEM housing The Bathyswath 2 Deck Unit takes DC power 9 to 14V The Bathyswath 1 TIU takes DC power 9 to 32 V Both systems are supplied with a mains to DC converter unit DC power can be provided from a ship s power system or from a separate battery If working with mains power connect the mains to DC converter to the mains supply and the output lead to the TIU 4 10 GROUNDING AND EARTHING Proper earthing and grounding of the system is very important for two essential reasons The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 20 ETD 2004 Unclassified document 4 10 1 4 10 2 Version 5 00 13 05 15 Page 21 ETD 2004 ITER SYSTEMS e Protecting personnel from the effects of mains faults e Limiting the effects of electrical noise on the sonar signal It also reduces the risk of accidentally connecting a power source across a ground connection see section 4 3 1 Mains
71. er to find and cure any such problems The information contained on this sheet is subject to restrictions listed on the cover page of the document Unclassified document ITER SYSTEMS 4 15 BOW MOUNT CONFIGURATION The bow mount is one of two deployment configurations available for vessels of opportunity For bow mounting the pole is fitted with V shaped brackets that fit around the bow of the vessel The pole is then pulled back against the bow using ratchet straps This method has the following advantages e Itis very quick to fit often requiring only a few minutes It can be fitted to most vessels with no modification to the vessel at all The transducers have a clear view of both sides of the vessel without needing to be below keel level The sides of the vessel are left clear for docking As the transducers are on the centre line of the vessel the effect of vessel roll is minimised It has the following disadvantages e The straps must be kept tight otherwise the pole will fall off The pole cannot be fitted to vessels whose bow angle is too shallow In general the bow must make an angle of less than 45 with the vertical e The water at the bow of the vessel can sometimes be aerated by the bow wave The transducers may be lifted out of the water by vessel pitch On large vessels the bow can be more than the length of the transducer leads 20 metres from a suitable location for the electronics It is diffic
72. eriment with suitable settings The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 57 ETD 2004 Unclassified document ITER SYSTEMS c Ifthe volume of data passing across the link is too great for either the communications link or the receiving process down sample the data first by selecting Remove Filtered Data and if that is still not enough use Downsample to d Note that some receiving processes including QINSy over write the controls in this dialog by command messages sent to Swath over the TCP IP link To disable this feature de select Allow External Control This is particularly necessary if Swath and the third party program are not working to exactly the same version of the interface 13 Click OK in both dialogs 14 Watch the Status view for information about the state of the link When the link is configured as a Server to receive connections from the other process the following message appears in the Status view 16 34 18 2007 08 24 Listening for connection on port 5001 16 34 18 2007 08 24 Resetting the socket connection 15 When the other process makes a connection the following status message appears 2t Status 16 36 44 2007 08 24 Text message received on socket Client connecting lt 16 36 44 2007 08 24 Accepted Connection 16 34 18 2007 08 24 Listening for connection on por
73. es Sonar transducer array 468 kHz or Sonar transducer array 234 kHz or Sonar transducer array 117 kHz Transducer Interface Unit TIU This could be a Deck Unit Subsea Unit or for older systems a Blue Box or Pelicase unit Software Swath Processor Grid Processor 4 1 2 Additional and optional equipment required for operational use The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 13 ETD 2004 Unclassified document ITER SYSTEMS Bow mount assembly comprising Tensioning straps 4 1 3 Variable angle transducer chassis The standard transducer V brackets are set up with a fixed transducer elevation angle of 30 This has been found to be a good compromise for most survey work However for depths close to or even exceeding the stated depth capability of a particular sonar frequency a transducer angle of 40 to 45 will give better results A variable angle transducer V bracket can be supplied for this purpose 4 2 SYSTEM DETAILS See Technical Information Ref 1 for the dimensions power consumption and other parameters of Bathyswath system components The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 14 ETD 2004 Unclassified document 4 2 1 4 3 ITER SYSTEMS Cabling required for a typical two tra
74. es E S E E E E EE A 6 1 5 PATAY NA TA aa E ET cen EE EEE EE T E O 6 1 6 BATHYOWATH SUPPORT orase rscnr in a E E E ecunentceqeute 7 2 PIE PAT Gt SAREE Yes tacses ec cemnenencncccccncossasnnsn mete cenecnacusssastaensasacenaccesesuccnmescanensassscsmecanusnsccccnacesesweanecasceaonmesuses 8 2 1 CAUTION acres cesesiearspaicineend tent E E R tently aansitneuaw EE E E E 8 2 2 IMPORTANT NOTICES sicsirciyranineoun one E a E 8 2 2 1 Lethal voltage WANING 1 cccseecccneecccnauseccsuseccsauseccsauseesaaneessasecesausessauueeesausessauseessaaeessaunecssausessagages 8 La UCO I o E E E A TAE E 8 223 Compass sde OBOUNCE cerreretiri oe Pe EY EEE EENES EEEE EE ENAT 9 2 2 4 EMC requirement conformity cccccccseeseccccseesecccnseeseccscauuseesscsuseecssaueneessssausecesssauaeessssauaeeesssaensesenas g VR reo E VONA lt 1 6 a E EAE E EN ATEA OE E NENN OANE EON ATEEN NE 9 PPA E a EE A eS E E E AE E TA T E E E EET 9 Zaid Prona POC ON eiaa E E O A EE R E A 9 2268 Feal NOUTO ren ainra eE A E E E E OTO O 9 229 ROGIAUON hazard NOn AOn SNG corerreseeisi intins eeni TEE A E EEEN AATE OEN ART pane 10 2 2 10 Environmental impact marine MAMIMAIS seccccccsssesececcsessecccscseecesscuseecsssuuneessssauseecsssaenseeeeas 10 2 3 IY IR T e E E E E EE A ET E E E E E E E 10 3 QUICK STAR T oiia a a neveucncue soneseueceuer in seu etoueucueeeue 11 3 1 ONONE FIEUPcecaiscaisccurtacntisatelscebtate acnnewedspanecesaaenetdacaidoudatn E EEEE EE AERA GONER 11 3 2 BIS T
75. essel or using a GPS system that provides accurate height information instead e Make sure that the transducer installation will not adversely effect the operation of the vessel or cause the transducers to be damaged If the vessel is to lie on the bottom at low tide ensure that the transducers are not placed in a position where they will be under mechanical stress or be abraded Similarly for small vessels that are routinely lifted by strops or placed in transport or storage cradles ensure that the transducers will be safe during such operations e Consider the effect of the transducers on vessel handling e The transducers are extremely robust and contain no active electronic parts other than the piezo electric ceramic elements themselves However a ship s hull is a very harsh environment so consideration should be given to ease of repair in the case of damage Attitude sensor Record the locations of the attitude sensor and the positioning aerial relative to the same fixed point on the vessel See sub section 4 11 Installing Position Heading and Attitude Systems Testing and trials On some vessels Bathyswath may not give optimum performance due to factors such as vessel noise and aeration Although Bathyswath is happy to give advice on installing the transducers onto a vessel it is not possible to give guarantees that no such problems will occur The installation plan should therefore include time for sea trials in ord
76. estrictions listed on the cover page of the document Version 5 00 13 05 15 Page 26 ETD 2004 Unclassified document 4 11 5 4 11 6 Version 5 00 13 05 15 Page 27 ETD 2004 ITER SYSTEMS e Heave from the attitude sensor combined with tide information These are essentially high frequency and low frequency components of vertical position If tide is used the depth of the transducers below the waterline must also be measured e GPS height the altitude component of the GPS data This is usually only accurate enough for surveying purposes if a high accuracy GPS system is used for example Real Time Kinematic RTK e Combining GPS height and heave As these are both capable of recording relatively high frequency information the GPS height needs to be filtered before combining The length of the filter is selectable in the Attitude Derivation dialog However it is much better to allow the attitude system to perform this data merging if it has the capability to do so e From a pressure sensor in an underwater vehicle this can be further combined with heave from the motion sensor if necessary Tide data is not needed if GPS height can be used Tide information can be fed in as a real time data stream into an Auxiliary serial port if it is SO available Combined attitude heading and position systems Some systems provide a combination of two or more of attitude heading and position In this case it may be necessary to make mo
77. fied consider the use of an opto isolator in the serial line from the auxiliary system These can be obtained from must suppliers of industrial computing equipment e Ensure that connections to metalwork are electrically and mechanically robust For example aluminium forms a layer of oxide that is an excellent electrical insulator It is usually necessary to use a self tapping screw or similar to obtain a good earth If the ship has a metal structure then consider setting up an earth bolt firmly electrically and mechanically bonded to the metal This can form the star point of the earthing system e If some instruments are powered from a separate 12V or 24V DC system try running an earth to the negative rail e Try changing the power supply for example some mains inverters give out a very spiky waveform which can appear very strongly in the sonar signal If the PSU cannot be changed try using a line voltage conditioner unit The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 23 ETD 2004 Unclassified document 4 10 3 ITER SYSTEMS Serial Communications Serial communications lines such as used from GPS and motion sensor systems can be a strong source of electrical noise Pay particular attention to the way that the ground connections of these lines are connected Serial to Ethernet converters are useful in this case because E
78. for six of the most common uncertainties measurement uncertainty transducer draft uncertainty settlement and squat uncertainty sound velocity uncertainty heave uncertainty and tide water level uncertainty are presented below These uncertainties are inherent to hydrographic surveying and all have practical minimums that are usually achievable only under ideal circumstances or with highly specialized equipment In addition some uncertainties may be dependent on depth e g sound velocity Maximum allowable uncertainties are specified to ensure that all error sources are properly managed It should be noted that if the maximum value for each error source is used in an uncertainty budget i e root sum squared the result will exceed the prescribed accuracy standard This is often known as the TPE total propagated error for a system but again should be more correctly termed TPU total propagated uncertainty The minimum and maximum values discussed below are at the 95 confidence level i e 2 sigma These values are in line with the standards specified by a number of organisations including IHO NOAA and USACE US Army Corps of Engineers 7 4 1 Measurement error This includes the instrument error for the sounding system the effects of imperfectly measured roll and pitch and errors in detection of the sea floor due to varying density of the bottom material Swath systems are particularly susceptible to this error due to the off nadir natu
79. g Detailed instructions for using Swath are on the Online User Guide of the software You can access this by clicking on the Contents option on the software s Help menu The Online User Guide also contains advice on the practical aspects of planning and preparation for carrying out a survey using Bathyswath including calibration and quality control 7 1 CHECKS BEFORE SURVEYING This section summarises the checks that need to be made before each survey A number of check sheets and crib sheets are referred to in this section Copies of these are provided with the Bathyswath software 7 1 1 Common checks All sensors and interfacing need to be tested prior to survey This will include the sensor message streams as well as interfacing between acquisition computers All sensors should be checked to ensure that the messages being output are correct for the survey and that equipment is set up for use with the correct accuracies For example check that GPS corrections are received and the resolution of the GPS position is as specified for the job Alarms should be activated in equipment to activate at the appropriate levels in both the sensor and any acquisition software Position system confidence checks also need to be undertaken section 7 3 The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 60 ETD 2004 Unclassified document ITER SYSTEMS Sur
80. g point Inspect the straps to ensure that they are not twisted and that they do not cross any sharp edges in the hull The straps can become abraded if they rub against such sharp edges or if they are caught between the hull and the dockside when the vessel is moored If this is the case then re route the straps or protect the straps with robust covering An alternative to using straps is to use steel rope between the pole and the ratchet blocks Fix the steel rope to a length of strap a metre or two on front of the ratchet block This allows the rope to be tightened with the ratchet Where the rope touches the hull it could damage the hull Putting a protective tube over the wire rope can prevent this Garden hose is ideal for this purpose Route the cables through the vessel and connect them to the Bathyswath electronics as specified above Apply power to the Bathyswath system and start the Swath software If the attitude system is fitted in an underwater bottle on the transducer frame note the roll and pitch angles Use the Text window in Swath make sure that the angles are displayed as numerical text The sign convention of pitch is such that it is positive when the vessel is bow up Roll is positive port side up The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 35 ETD 2004 Unclassified document 4 16 ITER SYSTEMS e f the pit
81. ger fitted with serial interfaces so a way of connecting serial ports to the PC is needed Ethernet to serial converter can be used for this Some serial interface devices can cause large and un defined time delays to the input data stream these should be avoided One useful tip is to disable any internal data buffering in the device There are two connector types commonly used for RS232 These are 9 pin D type and 25 pin D type The 9 pin types are far more common for interconnection between marine systems and so these are the preferred type If the sonar system is to be used on a range of installations and vessels it is a good idea to obtain a stock of serial converter connectors and cables These provide null modem swaps swapping over transmit and receive gender swaps from pins to sockets and vice versa and pin number swaps 9 to 25 The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 17 ETD 2004 Unclassified document 4 4 3 4 5 4 6 ITER SYSTEMS The pin use on the PC 9 way D type connectors is as follows This same arrangement is used on most peripheral devices In order to connect between these ports a null modem cable is required This connects pin 2 on one connector to 3 on the other and vice versa Pin 5 is carried straight through Receive into the device Transmit out of the device Some auxiliary syste
82. ging tide height with time Predicted tide data is usually not sufficiently accurate for good surveying Therefore a tide gauge should be installed within the survey area or a number of gauges if the area is extensive It is always good to have some redundancy for height control measurement This can be provided by tidal observations from local ports and harbours or from ground staff observing any changes over time at particular points on the shore or river bank within the survey area Observations need to be taken frequently enough to track any significant changes in height and at a maximum interval of 30 minutes The position of any height control point needs to be noted as well as the height relative to the datum being used e g chart datum local level or mean sea level 7 5 2 3 Lakes rivers and canals Height changes within lakes and river or canal sections should be monitored even if RTK GPS height is being measured In rivers and canals a height station should be set up and measurements should be taken at the start and end of every section surveyed 7 5 3 Positioning The position of the sonar system has to be recorded at all times in a survey and the quality of that position data must be carefully monitored throughout the survey See section 4 11 3 for information on installing position sensors Position accuracy can be prone to environmental problems in particular areas Areas to be aware of include rivers or canals with si
83. gnificant trees lining the bank urban corridors bridges and overhead obstacles In these conditions radio or GSM modem corrections for DGPS or RTK may have problems with some areas experiencing dropouts Radio modems tend to require line of sight so will be affected in urban or tree lined corridors GSM modems will suffer from any cell phone coverage issues GSM modems use GPRS data streams whose bandwidth may be reduced at peak times increasing latency or even causing a failure in the communication of corrections Overhead obstacles urban or tree lined corridors may also cause multi path issues for the corrections as well as for the GPS position As a backup it is best to record the corrections and the vessel position independently so that post processed position and heights can be derived if necessary It is also advisable that at an inertial positioning and motion system such as the Applanix POS MV be used An inertial system should provide some provide good positioning in areas of sporadic problems as well as allowing survey under overhead obstacles such as power lines or bridges The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 70 ETD 2004 Unclassified document 7 6 ITER SYSTEMS RUNNING SURVEY LINES A Bathyswath survey usually consists of a number of separate survey lines To cover a rectangular area a set of overlapping parallel li
84. hat are considered to be sub standard and fill any gaps seen on the coverage plot Use data replay facility to check that all the data necessary has been gathered and run a representative sample of the data through the post processing system before leaving the survey area Use estimated tide data if necessary Repeat the pre survey calibration measurements if these are likely to have changed see section 7 1 The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 72 ETD 2004 Unclassified document ITER SYSTEMS 8 POST PROCESSING SOFTWARE Post processing converts the data acquired in real time by Bathyswath into digital depth models These depth models are used to produce displays and plots of the surveyed area Users may select to use Bathyswath post processing software or a third party program to suit their application The post processing program is called the Grid Processor Gridproc The stages involved in processing Bathyswath data include e Re process the raw data sxr files collected during the survey to produces processed time series data files sxp e Use the Grid Processor Gridproc to create gridded digital terrain model DTM or grid files sxg from the sxp files e Use third party tools to service the end use of the Bathyswath data for example charting packages to create charts engineering packages volumetric packages
85. hen running at longer ranges the latest attitude sample will almost always be later than the latest ping sample and so the ping attitude difference will be negative and about half the ping period It is not appropriate to attempt to compensate for this difference for example using the Attitude Sensor corrections settings in Swath Sonar Views Strong roll errors will show up as movement in the cross profile displays Note that the noise data should roll with the vessel but the seabed should stay level apart from real changes in the seabed as the boat moves across it of course Watch the colour depth waterfall views for signs of roll errors on a seabed with slight slopes on it some quite small timing errors can be seen Correcting for Timing Errors If the roll error is large check that the transducers are connected the right way round and that the attitude sensor is correctly orientated and configured In Sensor Clock timing mode watch the various timing offsets Observe the now att time to look for differences in the PC clock and attitude clock this only works in real time not from recorded data If there is a large error more than 1 second check how the PC clock is being synchronised and correct it If there is a small residual roll error try small time offsets in the Attitude Sensor corrections settings in Swath If all else fails using PC Clock timing is generally a safer and more robust option The inform
86. ied by up to 5 knots for the purpose of delineating the along track profiles when assessing time delay Navigation timing error bias could also be determined from running lines over a distinct feature i e shoal on the bottom as long as the feature is pinged by the vertical nadir beam Roll bias calibration uses a series of lines that are run to provide a 100 overlap of port to port and starboard to starboard transducers The preferred line pattern as well as alternative patterns to be used in restricted conditions is outlined in the patch test crib sheet Heading bias should be determined from two or more adjacent pairs of reciprocal survey lines made on each side of a submerged object or feature i e shoal in relatively shallow water Features with sharp edges should be avoided Adjacent swaths should overlap by 10 20 percent while covering the shoal Lines should be run at a speed that will ensure significant forward overlap The operator should note the exact procedures run the order and results This information is important to allow the post processing personnel to determine and check the system alignment of the sensor the accuracy and produce a calibration and system performance reports Once calibration data have been processed and final system biases determined the new corrections can be used in a system accuracy test to ensure that the new system biases are adequate The test should be conducted in an area similar in b
87. ing tool The guide is accessed from the Swath Processor Help menu It can also be accessed directly from the Swath Processor software by using the F1 key on the computer keyboard to provide context sensitive help Ref 4 Grid Processor manual this provides instruction for using the Bathyswath Grid Processor program Ref 2 In addition there is Installation instructions the software and other components are supplied with specific installation instructions which build on the installation guides provided in this manual Ref 3 Bathyswath Website Ref 5 this has a large amount of technical information about the product including FAQs which are updated as users ask questions Auxiliary equipment manuals If Bathyswath is supplied with auxiliary equipment such as attitude sensors positioning systems and compasses These will be supplied with their own manuals and or online guides and the operator should read these before using the system FOR NEW USERS We suggest you start by reading Bathyswath Technical Information Ref 1 as an introduction to Bathyswath Then read the rest of this manual for guidance on installing the hardware and software Once the Bathyswath software is installed you can access the Online User Guide from the Help menu of the software The online information is provided in topics and has been structured to lead you through using Bathyswath as a hydrographic surveying tool You can fin
88. is regarded as a legacy port This is particularly true for laptops which rarely have serial ports fitted and so have to use external port adaptors using USB PCMCIA or Ethernet For a good USB implementation the time delay could be as low as 10ms but it can well be much more Therefore we do not recommend the use of USB serial adaptors Bathyswath has been tested with Ethernet USB adaptors and shown good attitude stability Possible mitigations include e Geta serial port system that has a delay that is either very small or deterministic and known the Bathyswath software includes a capability to correct for sensor time offsets e Use sensor systems that are synchronised with GPS time and add this time to the data string that they send out and configure the Bathyswath software to use this time stamp e Use Ethernet outputs from the attitude sensors Although there is a non deterministic delay in the Ethernet transmission it is small enough not to cause problems to Bathyswath processing typically 50 microseconds or less 5 1 3 Sonar data timing Sonar data time can either be provided by the TEM s own clock or using the PC clock time at the time of acquiring the data The TEM s internal clock is accurate to about 50ppm but it can be accurately synchronised with a time reference using a PPS input see below Each TEM records the time since its clock was reset in seconds and milliseconds The software records the PC time at
89. l system and each component e Time offsets between the various clocks can cause significant errors in data processing The most common of these is roll bleed where vessel roll is not properly applied to the sonar data and the vessel s roll appears as a sequence of waves in the seabed data e tis only possible if each sensor sub system o Maintains its own clock o Can be tied back to a central reference source o Provides data in a format that includes time information Most serial data interfaces from attitude sensors do not provide such timing data formats missing this information include the EM3000 and TSS1 formats However when the time data is recorded in Sensor Clock format both the Sensor time and the PC time are recorded with each data item Therefore it is possible to revert to PC Clock timing in post processing if a Senor timing error is discovered after the survey is complete 5 4 4 System diagram Usually the same system e g F180 or POS MV PPS PPS a UME ySLENI Attitude System GPS Position System e g GPS Ethernet PPS or y NTP Ethernet p gt PC Computer _ Ethernet Bathyswath TEM PPS j Figure 5 2 Sensor Clock Timing Configuration The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 45 ETD
90. ld ask you if you want to exclude it from the Firewall answer yes and you should be OK After the first run go to the Windows Firewall section in the Windows Control Panel and then select Add an App or Feature Through Windows Firewall Click Allow another app click Browse to find Bathyswath exe where it is installed in Program Files or Program Files x86 and click Add In Network Types select both Private and Public In the list of Allowed apps and features make sure that both the Private and Public boxes are ticked next to Bathyswath exe This should allow all instances of Bathyswath exe through the firewall no matter where they are installed It is also possible that bathyswath exe could get added to the list of applications that are specifically blocked by the firewall Block instructions overrule Allow instructions so if that happens bathyswath exe won t be allowed to communicate To correct that go to Advanced Settings in the Windows Firewall controls select Inbound Rules and click on the top of the Action column to find all the rules that are select to Block If bathyswath exe appears in this list select the entry and then Delete in the Actions column on the right The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 19 ETD 2004 Unclassified document ITER SYSTEMS 4 6 2 Checking and Changing IP Address A TEM reports the IP address that
91. llation and maintenance engineers This file is always called swathprocconfig txt Details are supplied below e The Configuration file This file stores the sub set of data in the Swath settings file that concern the configuration of the sonar system and is only used to transfer such information to and from external utility software O O O Swath processor initiation file This file stores fixed information about the context of the computing system This file is not intended for the use of the general user but rather is for installation and maintenance engineers Entering the wrong parameters into this file can cause the system to work incorrectly or not start up at all If in doubt do not edit this file This file is always called swathprocconfig txt and is stored in the same location as the swath processor executable bathyswath exe By default this is C Program Files ITER Systems Bathyswath for 64 bit installations and C Program Files x86 ITER Systems Bathyswath for 32 bit To edit this file use a text editor such as Windows Notepad Windows usually prevents direct editing of files in the Program Files directories To get around this find Notepad in the Windows Start menu right click on its icon and choose Run as Administrator Then navigate to the location of the file using the File gt Open menu item in Notepad The swath processor initiation file is an ASCII text file It consists of a
92. ly or internationally agreed baseline for height measurement COTS Commercial off the shelf i e bought from a shop rather than specially built for a one off job DC Direct current The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 1 ETD 2004 Unclassified document ITER SYSTEMS WORDS amp ACRONYMS DEFINITION DGPS DIM DVD EMC Ethernet FPGA GMT GPS Grazing angle Grid file Gridproc Horizontal range Hydrography Interferometer Inverter Line spacing Differential GPS improves the accuracy of basic GPS by comparing the position obtained by a GPS system with that obtained at a fixed GPS station at a known location Digital Terrain Model a digital map of the seabed where depth and sidescan data are stored with reference to their geographical position Digital versatile disk Electromagnetic compatibility robustness to external electrical noise signals and limiting transmission of such unwanted signals A commonly used method for connecting computers together in local networks Field Programmable Gate Array a digital electronic logic chip that can be programmed to carry out a set of tasks Greenwich Mean Time time zone the Bathyswath software works in GMT Global Positioning System the most commonly used satellite positioning system The angle that a sound beam makes with
93. mation contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 28 ETD 2004 Unclassified document 4 11 8 4 12 4 13 4 13 1 4 13 2 Version 5 00 13 05 15 Page 29 ETD 2004 ITER SYSTEMS Echosounders A single beam echosounder can be mounted alongside the Bathyswath transducers The echosounder does not have to be mounted close to the Bathyswath transducers in order that the attitude system corrections apply as a position offset can be entered into the Bathyswath software and thus a lever arm correction made It is likely that there would be acoustic cross talk between the systems and so the transmit pulse trigger output from the Bathyswath TEM only available on later versions of the TEM should be connected to the echosounder s input trigger line if available Bathyswath can read echosounder data on an RS232 serial line with formats including Valeport NMEA AML CSV SVP16 WESTGEO and HYPACK WET END DEPLOYMENT The term wet end is used to collectively describe all those parts of the Bathyswath system that when in use are in contact with the water Their method of deployment will differ slightly according to circumstances This manual covers three configurations These are hull mounting bow mounting and side mounting Hull mounting is the best option when the transducers are to be permanently mounted to a vessel The second two opti
94. ms such as attitude sensors and positioning systems only output data and do not require an input Therefore only pins 2 and 5 are used However some such systems are configured by a program that is run on the PC so the output line is also used The connectors on the PC and auxiliary devices are usually male that is they have pins rather than sockets If more than one system requires data from an auxiliary system the output can be spliced to both units but only on the transmit line from the auxiliary system Do not splice to inputs into the auxiliary device otherwise the equipment could be damaged The use of opto isolated inputs either as a feature of the interface card or as an in line module is recommended in order to minimise noise and damage from over voltage conditions Attitude system Ethernet interface Some attitude and position systems provide data over an Ethernet interface See section 4 11 6 for details of configuring this interface SWATHPLUS ISA INTERFACE CARD Versions of the SWATHplus TEMs supplied before autumn 2006 use an interface card that plugs into the computer s ISA bus This has now been replaced by USB interfaces in the TEMs See the installation instructions supplied with the software and hardware for the details of installing a SWATHplus ISA card ETHERNET CONNECTIONS Bathyswath 2 TEMs connect with the computer using Ethernet The TEM first searches for a DHCP server to give it an IP address
95. n procedure will vary from installation to installation depending on the various factors discussed above e Shackle three guy lines to the pad eyes on the base of the pole Three lines are required one forward one aft and the third as a belly strap e Locate hard points for the three lines and fix shackles to them Two of the hard points should be as far forward and aft as practical The third should be on the other side of the vessel directly across from the location of the pole e Assemble the attitude sensor and transducer frame assembly e Fix the assembly to the pole e Carefully measure and record the distance from the top of the pole to e the bottom of the transducers or the lowest point of the pole The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 37 ETD 2004 Unclassified document ITER SYSTEMS e the centre of the transducers and e the centre of the attitude sensor It is also useful to mark the pole at intervals with tape so that any changes in the depth of the transducers can be estimated when the vessel is underway Estimate the depth of transducers that will be needed to clear the bottom of the hull It is usually easiest to fix the side bracket to the pole whilst the pole is out of the water Estimate the correct location of the bracket that gives the required transducer depth Fix the transducer and attitude sensor c
96. nally a Configuration Reference Sheet has been provided to guide the operator on the correct place to input sensor offsets and corrections in the Swath acquisition software Ideally all offsets should be measured using a total station land survey instrument but steel tape laser levels and plumb bobs can be effectively used if care is taken for the progression of measurements through bulkheads or outside to inside the vessel If possible all measurements should be taken to an accuracy of 1cm Also determine static transducer draft settlement and squat corrections sound velocity corrections and tide corrections Apply these to the data prior to bias determination patch test calibration and system accuracy tests 7 2 SENSOR MISALIGNMENT PATCH TEST Prior to commencing survey operations the operator should conduct a patch test to quantify the accuracy precision and alignment of the swath system The patch test is used to determine any residual biases misalignments in roll pitch heading and navigation timing error These values will be used to correct the initial alignment and calibrate the swath system The sensor offsets are derived from post processing the patch test survey lines The patch test has a number of defined line patterns that need to be run or derived in a particular order The survey line patterns required to be run to derive sensor misalignments on the survey vessel are shown in Figure 7 1 These diagrams
97. nd eliminated Try turning off or disconnecting other systems on the boat to see if the noise signal changes If noise pick up persists e Try other combinations of earthing Some earth connections will make things worse by introducing ground loops where two items are already grounded together by another route e Ensure that the transducer cables do not run around or next to any other cables especially mains Ethernet and auxiliary sub systems position attitude etc e Look for external sources of interference Radio and radar transmissions can be particularly troublesome as they operate at similar frequencies to the Bathyswath sonar e Try changing the physical location of the components of the system e Disconnect the auxiliary inputs to the system to see if the noise level falls It will be necessary to set the corresponding attitude derivation or position derivation to Use Fixed Value in the dialogs under the Configuration menu in the Swath program in order to maintain a visible output in the Amplitude window This is achieved in one step using the Test Mode command under Configuration Tip save a session file with the Use Fixed Value settings call it TEM_test sxs or similar Once a particularly noisy auxiliary item has been identified it can be targeted for careful earthing One cause of noise is a sensor that is poorly earthed internally or in its own sub system If this cannot be recti
98. nes is run over it See Ref 1 for advice on planning the spacing between these lines Create a separate raw data file for each survey line Record all line names settings etc in the survey log Attitude sensors work best in straight lines and are less accurate in turns Therefore try to ensure that lines are straight or have very gentle curves Use gentle line keeping to keep the vessel on track It is better to accept a few metres off track error than to have a line with many short sharp turns in it Allow about 30 seconds straight run before the start of lines and after the end This is about 60 metres at 4 knots This practice allows the attitude sensor to settle down after the turns and improves filtering and interpolation of position data at the start and end of the lines It also allows the helmsman to get settled in to running a straight line after turning in to the Start point On long surveys such as pipeline or cable routes try to break the survey up into manageable lengths say 5 to 10 km Record separate data files for each section This greatly aids post processing Best results are also achieved with straight rather than curved or dog legged lines Run the survey lines so that adjacent lines run in opposite directions This ensures that port overlaps with port and starboard with starboard This pattern can be achieved by running the lines alternately or by skipping two lines each time The latter pattern is useful as it
99. ng set the sonar to be active but not transmitting Check the amplitude level seen without the transducers connected The base level in the amplitude window should be as low as possible 10k is ideal but certainly lower than 20k to get good results If spikes or sine wave seen then a sea earth may need to be run to the various sensors but try a sea earth to the TIU first Pay particular attention to any sensor powered by a battery or connected to the acquisition computers via RS232 serial connections The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 61 ETD 2004 Unclassified document 7 1 3 7 1 4 7 1 5 ITER SYSTEMS In addition to these general installation procedures the Bathyswath system needs to be tested in line with the maintenance procedures listed in section 9 Maintenance particularly section 9 1 Daily and Before Leaving Port and section 9 2 Weekly and Before Each Survey Calibration Before surveying all the equipment in the survey spread needs to be calibrated This includes The Bathyswath electronics in the Transducer Interface Unit TIU if using Bathyswath 1 and SWATHplus Sensors such as the attitude sensor Position system Relative linear and angular offsets for all components Also see section 9 2 Weekly and Before Each Survey and About Calibration in the Bathyswath Online Help
100. nsducer installation Transducer Port Port Transducer Transducer Starboard Starboard Transducer TIU interface Attitude Comms Sensor Serial Interface PC Box Compass Comms Serial PC Interface Box Alternative Attitude amp attitude amp position position system Ethernet PC Power Mains or DC supply TIU Power Mains or DC supply Cable name From Type Number of ce ee conductors 13 7 Transducer Screened 7 screened Electronics Twisted Pair Module Transducer Screened 7 screened Electronics Twisted Pair i Module Ethernet or Screened USB for Bathyswath 1 Screened 3 screened Twisted Pair i Screened 3 screened Twisted Pair i Mains cable or DC power TEM Mains cable or Housing DC power Notes All dimensions and weights are approximate POWER REQUIREMENTS Bathyswath TIU Parameter Supply Voltage Supply Power Power Supply Fuse Value 110 230Vac 50 60Hz or 12 25Vdc 10W Bathyswath 1 amp SWATHplus 25W 3A 250V slow blow type The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 15 ETD 2004 Unclassified document 4 3 1 ITER SYSTEMS Bathyswath requires clean electrical power of 12 25V DC approx 10W not including the power needed for the PC and for auxiliary systems such as attitude and position The system is supplied with a mains to DC converter so that it
101. nt to regard all damaged components as being potentially toxic requiring careful handling and appropriate disposal The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 9 ETD 2004 Unclassified document ITER SYSTEMS 2 2 9 Radiation hazard non ionising Most countries accept that radio frequency RF with mean power density levels up to 10mW cm present no significant hazard RF power levels in excess of this may cause harmful effects particularly to the eyes No part of the Bathyswath equipment produces this level of radiation Users of cardiac pacemakers should be aware that radio frequency transmissions might damage such devices or cause irregularities in their operation Persons using a pacemaker should ascertain whether their device is likely to be affected before exposing themselves to the risk of a malfunction 2 2 10 Environmental impact marine mammals The Bathyswath sonar frequencies are above the frequencies and below the power levels that are known to cause harm and distress to marine mammals Nevertheless caution should be exercised in areas known to be used by whales and dolphins 2 3 SAFETY TRAINING Most countries with an offshore industry have organisations that offer training in offshore safety Many companies that carry out work offshore require that workers should possess an up to date certificate of such training W
102. oach is that it can be difficult to recover and deploy at sea so it may not be suitable if long transits to the survey site are needed If the pole is mounted alongside an open deck area recovery at sea can be possible A drill for this must be thoroughly practised whilst alongside Review this drill for safety An alternative approach is to weld U shaped brackets to the side of the vessel and fit the pole with mating studs The pole can then be lowered into position when at sea This procedure usually needs a hydraulic crane or winch and can be hazardous in rough sea conditions For this reason another popular approach is to fit the pole with a swivelling mount at the top so that it can be rotated up out of the water when not in use The pole can be raised and lowered using a winch and tightened fore and aft with ropes If a pole is fabricated specially then it needs a horizontal square plate to be firmly welded to the end This plate must have four 12 mm diameter holes drilled in a square pattern on 120 mm centres 4 16 1 Side mount components The installation kit consists of pole transducers transducer frame attitude sensor mount and pole bracket Wire rope shackles bottle screws and fixings allowing eyes to be made in the wire rope are also required These latter components are available from most ship s chandlers and need to be selected to suit the particular vessel used 4 16 2 Installation sequence The precise installatio
103. ons are best when the system is to be installed for a limited time and are both carried out using the pole mounting equipment TRANSDUCER INSTALLATION GENERAL The following points apply to any installation Also refer to the instructions specific to the particular configurations below Transducer versions Bathyswath currently may use three versions of transducer operating at 117kHz 234kHz or 468kHz The first two transducer types are usually fitted with a 20 metre cable the 468kHz usually has a 15m cable Transducer location The faces of the transducers must not lie in aerated water Aeration can occur when fine bubbles are drawn under the hull from the air to water interface around the hull or from the action of propellers or other propulsion mechanisms The sonar range of the system is severely curtailed when the transducers pass through the wash of a vessel On no account should the transducers be mounted aft of the propellers Avoid mounting the transducers aft of obstructions in the hull such as thruster tunnels The transducers should be mounted in a location where they remain in the water at all normal roll and pitch angles e Measure the location of the transducers in three dimensions relative to the attitude sensor e Measure the location of the transducers in three dimensions relative to the positioning system aerial e Measure the depth of the transducers relative to the water line These measurements should be m
104. oosening the belly strap If this does not provide sufficient control place a chock on the appropriate side of the pole clamp If the attitude system is not fitted to the transducer frame examine the angle of the seabed by eye However remember that the seabed under the ship in dock may not be flat Measure the depth of the centre of the transducers relative to the water line Note that this can change once the vessel is moving at survey speed It will also change with loading and the location of personnel Use the fixed marks on the pole if you fitted them Record the pitch angle whilst this depth measurement is The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 38 ETD 2004 Unclassified document 4 17 BUOY MOUNT If Bathyswath is to be used with very small boats such as RIBs or Zodiac type inflatable boats a deployment method that has been used is to construct a floating platform that can be strapped to the side or front of the boat for surveying Such a platform can simply be constructed using the Bathyswath transducer bracket strapped to a pair of sausage buoys or fenders The attitude system and GPS antenna can be fixed to the top of this assembly The system cables are then run from the buoy to the computer system inside the boat Bathyswath users have used this method successfully to survey calm inshore waters However Bathyswath
105. or 25 crossings whichever is greater distributed throughout the data both spatially and temporally At these crossings the nadir or near nadir depths of main scheme lines should be compared to each of the nearest unsmoothed soundings obtained from the crosslines In addition the nadir or near nadir depths of the crosslines should be compared to the nearest unsmoothed main scheme soundings The operator should perform a separate statistical analysis as a function of beam number distance from nadir for each of the mains scheme crossline intersections used for comparison 1 2 ROUTINE SURVEY CHECKS The following ongoing survey checks should be undertaken and logged e Positioning confidence checks e Bar checks e Draught checks e Cross line analysis e Sun illuminated images e Single beam swath comparisons e Primary Secondary navigation system comparisons e Sound velocity measurement and its correct application to echosounders and software e In addition to the above the operator should perform spot checks of the quoted error uncertainty budget to ensure compliance The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 66 ETD 2004 Unclassified document ITER SYSTEMS 1 3 UNCERTAINTY BUDGET ANALYSIS FOR DEPTHS This was previously known as error budget analysis but the term error implies something that can be absolutely measured which i
106. ork practices or safety precautions All warning signs on equipment must be obeyed Where the A symbol appears in the margin special attention should be given to health amp safety considerations 2 2 IMPORTANT NOTICES All personnel are required to study these notices and familiarise themselves with all applicable safety precautions and bring them to the attention of others in the vicinity 2 2 1 Lethal voltage warning LETHAL VOLTAGE WARNING VOLTAGES WITHIN THIS EQUIPMENT ARE SUFFICIENTLY HIGH TO ENDANGER LIFE COVERS MUST NOT BE REMOVED EXCEPT BY PERSONS QUALIFIED AND AUTHORISED TO DO SO AND THESE PERSONS SHOULD ALWAYS TAKE EXTREME CARE ONCE THE COVERS HAVE BEEN REMOVED A current of 100 milliamps passing through the human body for one second can kill This can occur at voltages as low as 35V ac or 50V dc Some Bathyswath equipment uses electrical power that can be lethal Whenever practicable before carrying out installation maintenance or repair personnel involved must 1 Isolate the equipment from the electrical supply 2 Make tests to verify that the isolation is complete 3 Ensure that no one can accidentally reconnect power If it is essential to work on the equipment with power connected work must only be undertaken by qualified personnel who are fully aware of the danger involved and have taken adequate safety precautions to avoid contact with dangerous voltages 2 2 2 Use environment The Bathyswath 1 Transdu
107. oss a network However it can sometimes make system timing considerably worse particularly on stand alone systems It is therefore recommended that this service is disabled on survey computers unless it is specifically required It can be accessed using Start gt Settings gt Control Panel gt Administrative Tools gt Services and then scrolling down to Windows Time 6 2 7 Screen savers and power off modes For survey use disable screen savers and power off modes 6 2 8 Display resolution A high screen resolution is recommended at least 1280x1024 6 2 9 USB hubs Bathyswath 1 TIUs are fitted with an internal USB hub to connect the TEMs to the computer so a single USB port is provided When working with older SWATHplus TIUs USB TEMs can be connected to the PC using a USB hub For some systems better performance can be obtained by connecting the two or more TEMs to the PC using a good quality USB 2 0 hub usually with an external power supply This performance can be assessed by opening Swath setting the Ping Range to a short range say 5m and checking the ping rate in the bottom right hand corner of the Swath window The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 52 ETD 2004 Unclassified document 6 3 6 4 6 4 1 The information contained on this sheet is subject to restrictions listed on the cover page of the documen
108. ottom profile and composition to the survey area and during relatively calm seas and conditions to limit excessive motions and ensure suitable bottom detection In addition the system accuracy test should be conducted in depths equivalent to the deepest depths in the survey area The system accuracy test is basically a set of at least three overlapping lines with at least one cross line run orthogonal to the main survey lines The patch test and system accuracy tests should be repeated whenever changes e g sensor failure replacement re installations re configurations or upgrade software changes which could potentially affect data quality are made to the system s baseline configuration or whenever assessment of the data indicates that system accuracies do not meet the requirements specified for the project The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 64 ETD 2004 Unclassified document ITER SYSTEMS Roll survey lines requires a flat area Patch Test Crib Sheet Roll multibeam Roll PDBS space unrestricted Cross check PDBS A Roll PDBS space restricted Roll PDBS space restricted gt alternative Port port lines B to A amp C to D Stbd stbd line A to B amp D to C Pitch amp Latency survey over linear feature or a up slope Pitch Multibeam PDBS Latency Multibeam PDBS Heading Multibeam PDB
109. over page of the document Version 5 00 13 05 15 Page 79 ETD 2004 Unclassified document ITER SYSTEMS Sc Sc Transducer Select Lines Figure 9 1 TIU Transducer Connector Layout The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 80 ETD 2004 Unclassified document 9 6 4 9 7 9 7 1 Version 5 00 13 05 15 ITER SYSTEMS Bathyswath 1 Transducer Connector On the Bathyswath 1 transducer 1 metre tail the connections are as follows Pin number Description Colour on 16 way o gt steven wrie Ce oe ee j ee fome f e e p o ee frae C a Overall Screen Overall Screen n TRANSDUCER DRAWINGS Transmit Stave 5 Stave D oS S S StaveC 9 Stave B 10 The vertical acoustic centre is shown with a dotted line The horizontal acoustic centre is the physical centre and about 1cm behind the front face 468kHz Bathyswath 1 44 7mm The information contained on this sheet is subject to restrictions listed on the cover page of the document Page 81 ETD 2004 Unclassified document ITER SYSTEMS 9 7 2 234kHz Bathyswath 1 The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 82 ETD 2004 Unclassified document
110. possibly also heading e Compass providing heading e GPS system providing position e Real time speed of sound e Echosounder Some of these subsystems can be integrated into one unit for example the CodaOcotpus F180 and Applanix POS MV provide position attitude and heading In order to bring this data together correctly the relative timing of all the data streams must be known The most time critical measurement is roll For extremes of motion on a small vessel a timing accuracy of better than 5ms may be needed On a small vessel in a moderate sea a timing error of 20ms in the attitude data is just detectable on the depth displays and data output Pitch heading and position are required with a timing accuracy of better than 0 5 seconds 500ms Some survey protocols require that all data is logged with time information that can be traced back to a common time source usually UTC time derived from GPS signals This can be achieved using Bathyswath but may not be supported by some auxiliary sensor systems used with it 5 1 1 PC clock The clocks in most PC computers are not particularly accurate PC clocks are reputed to be accurate to 30 to 100ppm parts per million e g 100ppm is 0 36s in an hour However the Windows operating system adds its own timing errors and uncertainties Tip the Windows Time Service can cause the PC time data to vary at rates of up to half a second per minute 8000ppm Therefore it can help to disable
111. r some of the swath controls such as zooming and scrolling 6 2 PC CONFIGURATION This section provides tips for configuring Windows PCs to get the best performance from Bathyswath PC computers and operating system versions and configurations vary enormously so not all of these tips will be appropriate for every situation Many of the comments below have been found useful on older computers Modern PCs even laptops usually work well with the Bathyswath software with no modification 6 2 1 Windows Versions Bathyswath software is currently tested to run on Windows 8 It should work with Windows 7 Vista and XP 6 2 2 Windows security settings Microsoft Windows is ever more security conscious This is important for preventing viruses and other malware from infecting computer systems but it can prevent Bathyswath from working well and interacting with other computer systems The User Access Control setting can prevent some actions for example the option of setting the PC time from GPS messages in the Swath program It may therefore be necessary to disable this option in Windows For networking e g connecting to Ethernet attitude systems check the Windows Firewall settings Even for stand alone survey laptops the use of a good quality virus checker and firewall is highly recommended 6 2 3 Windows performance settings Windows performance can be maximised by selecting Settings gt Control Panel gt System
112. r if they are installed in the same housing as their grounds are also connected together via the chassis Do not coil up un used parts of the earth wire cut it to length Coils can cause the earth wire to pick up external electrical interference For the same reason do not run the earth wire close to mains wires or the active signal wires from other electrical systems If noise is still a problem try connecting Signal Ground to mains earth However before attempting this ensure that mains earth is effective and safe see above To evaluate the amount of noise pick up start the Bathyswath system running as in normal survey mode but with the transmit signal turned off Make sure that the transducers are plugged in to the TEMs and are in the water and that all auxiliary systems attitude position etc are operating and plugged in to the Bathyswath system However if one or more of these systems are not available at the time of the test use the Test Mode option under Configuration in the Swath program Disable all of the angle and phase filters Look at the Cross Profile window If noise is low then this display will show a random cloud of noise points If there is significant noise pick up then the display will show a straight line issuing from each transducer Depth measurement is severely compromised when these straight lines continue to exist when the transmit signal is enabled and the system is measuring a seab
113. re of outer beams The minimum achievable value is expected to be 0 2 metres at 10 metres depth The maximum allowable error is 0 3 metres plus 0 5 of the depth The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 67 ETD 2004 Unclassified document ITER SYSTEMS 7 4 2 Transducer draft error This error is controlled by variability in vessel loading and the techniques used to measure and monitor transducer draft This error is depth independent with an expected minimum of 0 05 metres and an allowable maximum 0 15 metres 7 4 3 Settlement and squat error Conventional methods of determining settlement and squat are limited by sea surface roughness and proximity of a suitable location to the survey area Careful application of direct height measurement methods such as Real Time Kinematic GPS will minimize this error This error is also depth independent although the effect of settlement and squat is greater in shallow water The practical expected minimum is 0 05 metres and the allowable maximum is 0 2 metres 7 4 4 Sound velocity error The factors associated with this error include 1 the ability to accurately measure sound velocity or calculate sound velocity from temperature conductivity and pressure 2 the spatial and temporal changes of sound velocity throughout the survey area and 3 how the sound velocity profile is used to convert measure
114. re than one connection from the sensor to the Bathyswath computer Heading can be derived from the attitude string but position needs to come in on a separate serial line In any case attitude and position are usually supplied in different formats and need to be decoded differently The Attitude Derivation dialog under the Configuration section of the Swath program provides a range of options for deriving roll pitch heading and height Attitude system Ethernet interface Some attitude and position systems provide data over an Ethernet interface Ethernet interfaces are generally preferable to serial because e Latency is less of a problem e Modern laptop computers tend to be fitted with Ethernet but not serial ports e The attitude and position systems can provide more data over Ethernet which helps with decoding For example such systems generally provide data packets with time tags on Ethernet but not serial If possible the attitude Ethernet input should be provided on a dedicated Ethernet line Heavy traffic on a general use Ethernet line can slow down the reception of data from the attitude system At the time of writing the attitude Ethernet inputs supported by Bathyswath are those from the CodaOctopus F180 and the Applanix POS MV The instructions below are those for the F180 Other systems are similar 1 Set up the attitude system to send data by Ethernet Typically this is done from the Attitude system s
115. receive staves A B C and D should have similar capacitances and the two transmit staves Tx should have similar capacitance When these measurements are repeated at the next check period look for any significant changes See section 9 6 for the transducer connector layout 9 5 TRANSDUCER CHECKS After two years and then every five years it is advisable to check the aging of the active ceramic components in the transducers This is done by returning the transducers to Bathyswath who will arrange for a subset of the transducer calibration tests to be performed The results from these tests are compared with those performed after manufacture This will indicate whether there is any degradation in the transducer performance 9 6 TRANSDUCER CONNECTOR DIAGRAMS Details of the connector at the TIU and the connector on the transducer s one metre tail are shown below The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 77 ETD 2004 Unclassified document ITER SYSTEMS 9 6 1 Bathyswath 2 Transducer connector On Bathyswath 2 systems the transducers are fitted with Subconn MCOM16 wet mate connectors The same connector type is used for the transducer extension cable at both ends and on the TIU electronics housing The Bathyswath 1 and Bathyswath 2 connections are compatible with each other so that Bathyswath 2 transducer extension cables can be
116. rements This feature is often very useful for improving the accuracy of a survey Be aware of the errors that can arise from differences in grid systems geoids and datums Bathyswath accepts position data as grid co ordinated easting and northing or as latitude and longitude In the latter case the latitude and longitude are converted to grid positions when they are read into the system using a range of conversion protocols including Universal Transverse Mercator UTM A range of geoids and other conversion parameters are available in the Position input dialog Post processing is carried out using grid co ordinates Alternatively use a proprietary software package to convert the position to grid co ordinates on line Several excellent packages are available for this function these also provide many useful features for planning and running the survey lines Some models of attitude sensor can accept information from the position system to help it correct for errors that arise from centripetal acceleration in turns The position information required by the attitude sensor for this purpose must usually be of a specific NMEA format but does not need to be as accurate in position as that used for locating the Bathyswath depth measurements See the attitude sensor s own manual for further details 4 11 4 Height The vertical height of the sensors can be obtained in several different ways The information contained on this sheet is subject to r
117. rictions listed on the cover page of the document Version 5 00 13 05 15 Page 48 ETD 2004 Unclassified document 5 6 5 6 1 5 6 2 5 6 3 5 6 4 ITER SYSTEMS o Disable PPS in the Sonar dialog Although there is no harm for the PPS to be running it is ignored in this mode Set a small delay to the attitude samples to account for serial data acquisition times Configuration gt Sensor Parameters gt Attitude Sensor Corrections gt Time Offset An offset of 0 015 works well for an F180 sensor operating over a serial link MONITORING SYSTEM TIMING Motivation Especially if using Sensor clock timing it is important that the relative timing of the components of the system is carefully monitored during the course of surveys To do this open a Text window and select Show Timing Data This monitors the current PC time and the time of the latest sonar attitude and position data samples together with the differences between these It also shows running averages for the ping attitude and ping position data samples Text View Note that there is no reason why any of these differences should be exactly zero as the data is acquired asynchronously at different rates for each data set An exception is the attitude and position data if these are coming from the same sensor in that case a zero attitude position time can be expected As attitude data is acquired at a faster rate than sonar data particularly w
118. rine electronics equipment such as compasses and positioning systems Unwanted signal Network Time Protocol a method for synchronising computer clocks over a network The electronic user manual that is accessed directly from the Swath software A method used to calibrate the relative locations and angles of the components of a survey system by comparing depth results from overlapping survey runs Personal Computer Recording the time of a data sample using the time of the computer s clock at the instant the sample is received in the software Compare with Sensor Clock Phase Differencing Bathymetric System see Interferometer A complete transmit receive cycle measuring depth and sidescan information over a profile of the seabed Also sometimes used to refer to just the transmitted acoustic signal Processing sonar data after it has been collected compare with real time Ping or pulse repetition frequency the number of pings emitted per second A 2D set of depth measurements usually taken sideways from a survey vessel Power Supply Unit Quality assessment The file used by the Swath Processor application to store raw data Uses an sxr file extension The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 3 Unclassified document ETD 2004 ITER SYSTEMS WORDS amp ACRONYMS DEFINITION Real time
119. rogram 8 Click on Attitude then Network Settings Enter the port number that the sensor is broadcasting to generally 3000 for F180 and 5602 for POS MV 9 Click OK and Connect in the Attitude Sensor Settings dialog 10 If position is being obtained from the same source open the Position dialog and select the appropriate input format e g Coda MCOM or POS MV 102 11 Refer to 5 for advice on selecting timing from Sensor Clock or PC Clock 4 11 7 Speed of Sound Sensors Bathyswath can take inputs from speed of sound sensors in two ways 1 Regular vertical profiles dips taken by the operator using a separate stand alone instrument The profiles measurements of speed of sound against water depth are entered as tables into the Swath software 2 Continuous updates from a speed of sound sensor mounted next to the transducer heads This measurement is used to perform the calculation of the angle of the sound wave at the transducer head This may be necessary if the survey takes place in an area where the speed of sound at the surface changes significantly for example in an estuarine area The vertical profiles are always necessary where the speed of sound changes with depth The continuous updates are important where the surface sound speed changes across the area Frequently both are needed but sometimes one or neither of them is adequate for an accurate survey The infor
120. s environment calibration and dual antenna GPS heading system calibration The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 62 ETD 2004 Unclassified document ITER SYSTEMS 7 1 6 Sensor offset measurements Offset measurements must be noted for each sensor These include measurements required for the sensor set up and offsets between each sensor A common reference point CRP should be chosen for the survey This is often the centre of the motion sensor but it could be at any convenient location to which everything can be measured The CRP is the position and height datum for the vessel and offsets should be measured in reference to it Lever arm corrections need to be applied between the motion sensor and the sonar transducers so that the motions applied are correct for the position of the sensors This can be done in either the sensor or the acquisition software but not both Applying lever arms within a motion sensor especially if it is a combined motion position and heading sensor such as the POS MV or F180 will give more accurate results than those applied in software but may be more difficult to correct for later if the lever arm is applied incorrectly in the instrument Vessel offset diagrams are provided with the Bathyswath software to codify sensor positions and offsets as well as define the survey reference point Additio
121. s often not the case in hydrographic surveys For this reason the term uncertainty has now introduced instead of error Literature regarding hydrographic survey and standards are currently in transition so the terms uncertainty and error should be seen interchangeable as sometimes both will appear within a single document The uncertainty associated with bathymetric measurements includes a uncertainty in the location of a measured bathymetric data point b uncertainty in the depth associated with a bathymetric data point and c uncertainty in the backscatter strength associated with a bathymetric measurement Bathymetric uncertainty management involves both the design of a bathymetric system and the evaluation of results and products derived from bathymetric data Measurements are always uncertain to a greater or lesser degree Uncertainties are of three fundamentally different types accidental systematic and random Each type must be dealt with differently A common characteristic shared by all three however is that the reliability with which we can determine uncertainty is completely dependent upon the degree to which the bathymetric data is redundant repeated measurements of the same seabed feature or even footprint which can be directly compared to ascertain consistency The operator should endeavour to minimize the uncertainties associated with the determination of depth corrections to echo soundings Uncertainty estimate ranges
122. safety earth For personnel safety the mains power supply earth if used some systems are supplied with DC power must be connected right through the system Ensure that the earth connection to all the units that take mains power is effective If in doubt consult the person responsible for the vessel s electrical supply Noise reduction Ships can be very electrically noisy This noise can be picked up by the Bathyswath and degrade the depth measurements Correct earthing can significantly reduce this noise The earthing arrangement that gives the best results on any vessel can only be found by experiment This is because each vessel has different noise characteristics and earthing arrangements This part of setting up a Bathyswath system is very important and should not be skipped or rushed High external noise is a common cause of poor survey results On Bathyswath 1 and SWATHplus the TEM Signal Ground is brought out to a connector on the back of each TEM The ground is also bonded to the metalwork of the housings One significant source of noise is the difference in potential between the sea and the electronics This potential can be induced by electromagnetic noise Connecting the Signal Ground to a good sea earth can reduce this effect This can be done by e On pole mounted systems run a wire between the TEM Signal Ground connector and the metalwork of the pole Use a wire with a good cross section and ensure that the connection to
123. sed on the sonar head This surface sensor can be directly read by the Swath acquisition software A surface probe will allow the operator to monitor changes in SOS in real time and help aid decisions on when and where to take a SOS profile The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 68 ETD 2004 Unclassified document ITER SYSTEMS A SOS profiler is essential equipment for multibeam or swath data collection If a choice needs to be made between a surface probe or a profiler choose the profiler A profiler works best if it is independent and self recording rather than tethered as this will allow use over a greater range of depths The profiler should be set to take a reading based on pressure at roughly every 0 5m to 1m intervals depending on water depth Use 0 5m triggering in water less than 10m deep The profiler should be a direct reading SOS meter rather than a CTD conductivity temperature and depth as this will give a more accurate reading for SOS SOS probes and profilers need to be calibrated yearly to check and maintain the accuracy of the instrument A SOS profile should be taken after arriving in the survey area This will check that the equipment is working and the data can be downloaded as well as allow the operator to survey using valid SOS data A SOS profile should be taken regularly If a surface probe is used then this can
124. set of entries each entry being on one line of the file A typical entry line consists of three words separated by white space spaces and tabs The first word is the entry group the next specifies the entry item and the third gives its value Version 5 00 13 05 15 Page 53 ETD 2004 Unclassified document ITER SYSTEMS The entries do not need to be in any particular location in the file but if an entry type is repeated then the information in the latest one in the file over writes the information in any earlier ones A typical entry is sonar hardwareFitted i The group is sonar there may be other entries that define the sonar settings The entry is hardwareFitted this particular item tells the software whether to expect Bathyswath TEMs to be accessible to it The third item is set to 1 meaning in this case that the hardware is expected If no hardware is expected set this item to 0 zero This particular setting can be useful when the Swath Processor is installed on a system that is only used for post processing and it prevents the software from issuing a warning when it cannot find any Bathyswath hardware on start up Other useful settings include e The preset group this defines the pre set filter settings used in the first window of the bathymetry filter dialogs The meaning of each setting should be obvious in comparison with the bathymetry filter dialog items e The synchsocket
125. swath session file sxs in the Explorer program This option opens the selected session file within swath and thus provides the settings that were stored in the session file The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 54 ETD 2004 Unclassified document ITER SYSTEMS Unless a specific session file was selected to open the swath program swath starts with a blank session file This uses a default set of settings which are designed to work in many situations However carefully check all the settings that this provides and ensure that they are all appropriate to your installation Once you have made these checks and ensured that they all work you may wish to save the session file as a template for use as a starting point in later work For example once you have set up the communications port parameters for the auxiliary equipment and entered the sensors positions in the Configuration dialogs save the session file as say setup sxs Then use Save As to save the file again using a name that applies to the current project This time add the parameters that only apply to the current project such as speed of sound and tide Finally use Save again to ensure that this information is not lost in the event of a power failure etc 6 6 USING THE SOFTWARE The Bathyswath software is described in detail in Ref 1 F
126. system need to be referred back to a common height datum Even if this is not a requirement for charting purposes it is necessary in order to be able to merge survey lines taken at different times within the same area Height datum control can be provided in a number of different ways but the most common are to use GPS height or to use tide tables 7 5 2 1 GPS height Kinematic GPS real time or post processed will provide the actual height of the vessel and sensor and so track directly any height changes at the vessel relative to a geoid height Most GPS sensors provide heights relative to the WGS84 datum The Swath program includes the facility to perform geoid conversions on input positions GPS height should only be used if the height accuracy from the GPS is 10cm or better This is usually not the case for standalone GPS or differential GPS DGPS The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 69 ETD 2004 Unclassified document ITER SYSTEMS If GPS height is used the Swath program provides the option of merging in heave data from the attitude sensor 7 5 2 2 Tide If GPS height is not available at sufficient accuracy heights are first processed relative to the water surface and then the height of the water surface is added This water height is what we Call tide and it changes with time Therefore a set of tide tables is needed log
127. t ITER SYSTEMS TO INSTALL USB TEMS BATHYSWATH 1 AND SWATHPLUS When plugged in for the first time USB TEMs are auto detected by the Windows software which then asks for the information needed to install the necessary drivers For further information see the accompanying document Installing Bathyswath SOFTWARE SETTINGS FILES The Swath Processor program can be configured to work in many different configurations The configuration details are stored in several different files as appropriate to the configuration information stored These are e The Bathyswath settings file which has the file extension sxs This stores the details of a survey session including o The sonar settings transmit power ping length etc o The auxiliary system settings serial port number and baud rate data format use of auxiliary systems for creating attitude data Positions and angles for all of the system components Correction offsets and multipliers for all data types Filter settings Location and settings of display windows e The Windows registry this stores information such as the previous files and directories used so that the user does not have to search the whole directory tree each time a new file is used e The swath processor initiation file This stores information about the context of the computing system and other such start up information This file is not intended for the use of the general user but rather is for insta
128. t 5001 16 34 18 2007 08 24 Resetting the socket connection 16 The status of the socket can be checked at a glance using the traffic light indicators in the Main Dialog Bar However a green light is no guarantee that the other process is successfully receiving and processing data only that it is being sent without errors The indicator goes amber if the socket blocks 17 Save the session file to save these settings 18 The connection can also be tested by using a second copy of the Swath processor as the receiving process Configure the second Swath processor with Receive and Client Both Swath Processors will need to be configured with session files specifying the correct attitude and position decode methods etc The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 58 ETD 2004 Unclassified document ITER SYSTEMS If using Bathyswath and the other process on two separate computers make sure that the two computers clocks are well synchronised This can be achieved using an NTP server and client For example if the computer running the other process is synchronised to GPS time with PPS signals and ZDA messages run an NTP server on the other computer and an NTP client on the Bathyswath computer NTP server client applications can be obtained cheaply as Internet shareware packages See section 5 6 7 2 Using third par
129. the Bathyswath system Newer TEMs provide their own calibration signal when in Calibrate mode and so do not need the Calibration Box For the older TEMs a Insert the Calibration Box s connector into the top TEM connector known as channel 1 or port channel in lieu of the transducer cable b On the calibration box select the correct frequency for the TEM to be calibrated c Switch on the calibration box In the Bathyswath Software under Input click on the Sonar button Then select check Active and Calibrate and click on Apply Under the Tools menu enter the Phase Offsets window From the drop down list select Transducer 1 2 St Ss p Allow the displayed offset values to stabilize could be 30 seconds or more and check the Apply Offsets box 10 Click the Apply button 11 For your records make a note of the phase calibration offsets derived The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 75 ETD 2004 Unclassified document ITER SYSTEMS 12 Save the session file sxs This file should be used as the basis of all future session files as it contains the phase offset calibration values 13 In the Sonar window deselect Calibrate and click Apply 14 Turn off the calibration box if used and transfer it to the lower TEM connector 15 Repeat
130. the PPS signal is being received e Error which checks that the period of the PPS signal is close to 1 second as compared with the TEM s internal clock The most common cause of an error of this type is if there is noise on the PPS line causing the TEM to trigger at times other than the correct signal edges This might occur if the PPS impedance and termination are incorrect see 5 2 1 above The main dialog box also contains a traffic light status indicator which summarises the state of the two status indications at a glance The Status window gives information about PPS status Note that a PPS error state may briefly be detected when connecting or re connecting the PPS signal or changing the PPS state in software as the TEM units synchronise to the regular PPS input SYSTEM CONFIGURATIONS Alternatives Bathyswath is designed to operate with a range of different equipment and system configurations However there are broadly two options for system timing e Sensor clock timing all sensor information is recorded using the sensor s own clock time This configuration provides data related to UTC GPS time with an accuracy of 10ms or so but is more difficult to set up and is only possible if the auxiliary sensor systems provide such timing information in their data interfaces e PCclock timing all sensor information is logged using the time at which it appears at the PC for logging This option provides a slightly less
131. thernet connections are transformer coupled there is no DC connection However noise can still get into the system via the ground line of the DC power to the converter and any Ethernet hubs used 4 11 INSTALLING POSITION HEADING AND ATTITUDE SUBSYSTEMS 4 11 1 Attitude sensor When mounting the transducers in the hull e Mount the attitude sensor as close to the transducers as possible e Mount the attitude sensor on the fore and aft centre line of the vessel e Align the attitude sensor s vertical axis with the vertical that applies when the vessel is afloat e Strive to make the above alignments as exact as is practical It should however be noted that slight misalignments of 1 or 2 degrees can be compensated for in the patch test calibration of the system Ensure that the attitude sensor s mount is completely rigid The attitude sensor measures the angular location of the transducers to better than 0 05 It must therefore not move relative to the transducers by more than this when the vessel rolls and pitches Prepare a mounting bracket for the attitude sensor that e is rigidly fixed to the structure of the vessel e cannot move relative to the transducers e does not need to be disturbed for any reason and e is notin a walkway Some attitude sensors are taller than they are wide When mounting these units consider using a frame that holds the top of the unit to prevent it swaying relative to the vessel When pole mounting e
132. twork Connections gt Local Area Connection gt Properties gt Internet Protocol TCP IP gt Properties The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 56 ETD 2004 Unclassified document ITER SYSTEMS Li 12 132 AGB TI Etam DS server adress automatically Select Bathyswath Parsed To use the displays and processing in the Swath processor alongside the third party application de select Suppress processing after sending data on socket Otherwise select this option If the third party application is the main processing visualisation and data storage tool in the set up enable Block pinging if socket blocks This causes the Swath processor to wait until the previous data packet has been sent over the socket link before sending the next one If this option is left clear the Swath processor continues to the next ping when the socket blocks and the receiving process will miss pings Click the Parsed Data Properties button Select the settings suitable for the receiving process a QINSy and Hypack use the filter results in the data sent to them so select Filter Results b Select which filters to use and their settings These values are similar to those used in the Swath processor bathymetry filters so those filters can be used together with the Swath displays to exp
133. ty tools for both bathymetry and sidescan Most third party surveying software tools can process both bathymetry depth information and sidescan imaging data However the input requirements of these tools are often different for the two tasks Bathymetry data is usually best filtered and down sampled in the Bathyswath Swath Processor software before sending to the third party tool This prevents that application from being swamped with too much data Sidescan data requires all of the raw data to provide good images The filtered and down sampled data does not provide high resolution sidescan images Swath Processor provides a second TCP IP port This is useful for third party applications that handle sidescan data on a separate port to the bathymetry data In this case set the Parsed Data filters differently in the second port to support sidescan data Using All Filters Off is suitable for most sidescan reading systems The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 59 ETD 2004 Unclassified document ITER SYSTEMS 7 USING BATHYSWATH FOR SURVEYING Once the hardware and software are installed as described in the previous sections you are ready to use Bathyswath for hydrographic surveying The real time software Swath is used to set up control and run all aspects of the survey including data collection processing and recordin
134. ull instructions for using the software are in the Online User Guide You can access this by clicking on the Contents option on swath s Help menu The Grid Processor program has a separate manual Ref 2 This is accessible from the Bathyswath entry in the Windows Start menu 6 7 USE WITH REAL TIME THIRD PARTY APPLICATIONS The Swath processor can be used with several third party sonar processing and visualisation packages in real time These include QINSy from QPS PDS2000 from Reson Hypack Hypack Inc and SonarWiz Chesapeake Technology International The Swath processor sends data to the third party application using the Parsed Data format on a TCP IP link This link can either be set up with both processes running on the same computer or on different computers connected by Ethernet 6 7 1 Configuring the software The Swath processor can be configured either to run all its processes and displays as per standalone operation or the processing and displays can be suppressed to save on memory and processing power The latter is usually preferable if both processes are running on the Same computer To use Bathyswath with these applications 1 Install the Bathyswath hardware and software for a standalone operation 2 Start the Swath Processor and click on the Socket button in the Main Dialog Bar The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00
135. ult to make the pole mount rigid relative to the vessel This is a problem if the vessel s gyrocompass is used as a heading reference 4 15 1 Bow mount components The installation kit consists of pole transducers transducer frame attitude sensor mount adjustable angle bracket bow mount brackets and adjustable ratchet straps See Figure 4 4 below The two bow mount brackets are spaced on the pole so that they both make contact with the straight section of the rake of the bow The brackets are fitted with padding on the surfaces that are in contact with the bow in order to protect the ship Make sure that this padding is intact before fitting the bow mount The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 33 ETD 2004 Unclassified document ITER SYSTEMS Figure 4 4 Bow mount assembly side view 4 15 2 Installation sequence Bolt the transducers to the cradle with the stamped TOP labels uppermost Attach the attitude sensor to the transducer frame Each model of attitude sensor has a different mounting assembly to fix it to the Bathyswath frame Some attitude sensors have locating holes that need to be correctly aligned Ensure that the attitude sensor is located the correct way around Attach the attitude sensor and the transducer assembly to the pole The angle that the transducer frame makes with the pole should be adjusted at the a
136. used to connect to Bathyswath 1 transducers MCOM16F runcion cron ee arene female connector Mating face 9 6 2 Greasing and cleaning the connectors The Subconn connectors should be greased with Molykote 44 Grease Medium a Dow Corning product General cleaning and removal of any accumulated sand or mud on a connector should be performed using spray based contact cleaner isopropyl alcohol New grease must be applied again prior to mating See the MacArtney support site for more information http macartney com su The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 78 ETD 2004 Unclassified document ITER SYSTEMS 9 6 3 Bathyswath 1 TIU Transducer connector The wiring of the Bathyswath transducer connectors in the standard TIU is shown in Figure 9 1 TIU Pin letter Description on 26 way Connector Stave A Stave A A a Stave A Stave B Stave 8 Stave B Stave C Stave Stave C Stave D Stave D Stave D T i c T X X X The different transducer frequency versions are encoded in pins W X Y c and b These codes are implemented in the transducer connectors as follows Implementation Oaa Pins W Y and b linked together Pins X c and b linked together 117 234 68 Pins c and b linked together The information contained on this sheet is subject to restrictions listed on the c
137. ut it synchronises the TEM clock See Figure 5 1 External time system e g GPS Fe TEM PPS Figure 5 1 PPS Input to TEMs Connecting the PPS signal PPS is generally supplied as a BNC coax connection from the GPS system A BNC connector is supplied on the Spider Cable or connector face of the TIU for this purpose The TIU PPS input is designed for high impedance outputs However some systems provide PPS on a 50Q2 output In this case it may be necessary to use a 5002 BNC terminator and T piece at the TIU PPS input Monitoring the PPS input The Swath software provides the ability to control the PPS input and to monitor its status The Sonar control dialog in the Swath program includes two controls e PPS Enable and e 6Rising Falling edge The first of these tells the TEMs to use the PPS signal to synchronise their clocks or not The second control determines whether the rising or the falling edge of the PPS square wave signal should be used for timing Note the CodaOctopus F180 and Applanix POS MV systems provide a falling edge PPS signal The information contained on this sheet is subject to restrictions listed on the cover page of the document Version 5 00 13 05 15 Page 43 ETD 2004 Unclassified document 5 3 5 3 1 5 4 5 4 1 5 4 2 ITER SYSTEMS A status indicator at the bottom of the Swath program main dialog box usually on the left of the screen provides two status indicators e Ack which acknowleges that
138. vey data is cross referenced by position and time When collecting data all sensors must be acquired on the same time base so that they can be correctly geo referenced All acquisition computers need to be synchronised with each other and against GPS or UTC time A number of the acquisition programs have synchronisation function to set the computer clock using the GPS time from the position input strings The time set in this way can be variable and be subject to any latency in the interface as well as the 15ms time resolution accuracy that is generally available under Windows PC This is not necessarily a problem as a number of the sensors provide data that is time stamped at the sensor but quite a few do not and if these data sources are high frequency then latencies will be seen in the data Acquisition programs often allow the user to correct for these latencies but this can be variable in its success Depending on computer loading and interface type latencies can be seen to be variable through the interface as well as be vulnerable to a 15ms jitter if time stamped atthe PC Itis recommended that if any sensor or computer can be set up to use a PPS source from a GPS then they should be set to do so Itis also highly recommended that an NTP time server and clients are used to keep the PCs used for acquisition in line as NTP software will maintain the computers clocks to a higher accuracy than one of synchronisation functions This is probably best
139. y line to the top of the pole and secure its free end to the vessel s bow Pass the connectors take care not to drop them in the water to the vessel along with the free ends of the straps Attach four ratchet blocks to secure points Two blocks are attached on the port side and two on the starboard side Fix two of them 2 3 metres aft of the bow and the other two 5 8 metres aft of the bow Two people are now required to lift the entire assembly over the quayside into the water A third person on the bow of the vessel should maintain tension on the safety line attached to the top of the assembly Once the assembly is in the water its weight will decrease and the bow person should be able to support it whilst the two persons on the quay come aboard These two should then take the free ends of the straps attached to the top V bracket and pass them along the appropriate port and starboard sides Attach the ends of the straps to the forward pair of ratchet blocks Use the ratchets to tension the straps so that the top V bracket is firmly in contact with the bow At this point it is useful to check the alignment of the pole with the bow and to give correcting instructions to the people tightening the straps Once the top mount is secure take the bottom straps to the aft ratchet blocks Again during tensioning the quayside person is required to assist in alignment On completion of strap tensioning tie off the safety line to a bow stron
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