austroads test method ag:am/t001 pavement roughness
Contents
1. IRh Rhon Lane IRI qe 2 where Lane IRI Lane Roughness IRI m km IRI yo Roughness of left wheel path profile IRI m km IRl r Roughness of right wheel path profile IRI m km the lane IRI for each 100 m section represents a test result if required the NAASRA roughness for each lane for each 100 m section being tested using the following equation NAASRA counts km 26 49 x Lane RI m km 1 27 Austroads 2011 Austroads Test Method AG AM T001 Pavement Roughness Measurement with an Inertial Laser Profilometer 8 REPORTING For each test run the following data must be recorded but not necessarily reported a survey title contract number date and time survey device identification operator driver f road number reference g road name if applicable h test direction test lane start and end references k intermediate features and or reference points if applicable l any unusual occurrences e g lane changes bridge abutments end of seal etc For each 100 m test result a left wheelpath IRI to the nearest 0 01 m km b right wheelpath IRI to the nearest 0 01 m km c lane IRla to the nearest 0 01 m km NAASRA Roughness Count if required to the nearest whole number e vehicle speed during test f error or event flags g operator comments where applicable Austroads 2011 ee e Austroads Test Method AG AM T001 Paveme2. a lane A distance measuring transducer capable of measuring the distance travelled to an accuracy of 0 1 The transducer shall provide input to the data logger to record the distance travelled from the start of the collection survey A data logger capable of capturing the output data from the transducers at known equal intervals not greater than 50 mm within the range of wave lengths of 0 5 m and 50 m Austroads 2011 93 Austroads Test Method AG AM T001 Pavement Roughness Measurement with an Inertial Laser Profilometer A processing computer to analyse the profile data and by applying the quarter car model obtain IRI for a single wheelpath and Lane IRI b Manufacturer s User Manual c Flat base plates gauge blocks and any other equipment required by the manufacturer s User Manual for the calibration of the laser displacement transducers 5 CALIBRATION AND VALIDATION 5 1 Equipment Calibration 5 1 1 Distance Transducer a The distance transducer must be calibrated in accordance with the manufacturer s specification b The calibration factor and associated information such as the date and time of calibration is then stored and used for all subsequent testing until such time as a new distance calibration is performed c Distance calibration must be performed whenever a distance transducer is fitted on the vehicle and immediately following any change to the distance transducer or change to a
3. network surveys unless otherwise directed the test lane shall be that lane that is used by the majority of the traffic For most roads this coincides with the outer slow kerb lane The median lane shall be tested if parked vehicles obstruct the outer lane this must be noted and reported The vehicle must be driven in the usually trafficked wheelpaths Throughout the survey the vehicle must be driven in a smooth manner and care must be taken to ensure that the speed of travel is within the manufacturer s operating range wherever possible Data must be collected with reference to the pre specified referencing system and the location of any reference points measured during the survey noted in the data reporting The start point of the survey must be defined prior to commencing the survey Following the instructions in the manufacturer s User Manual measure the surface profile along each wheelpath in the test lane travelling at a relatively constant speed with the centre of the vehicle coinciding with the mid point between the wheelpaths of the lane being surveyed Testing must be terminated if conditions are such that difficulty is encountered maintaining the required test lane and or minimum test speed resulting in the collection of invalid data No attempt should be made to avoid pavement defects unless they are likely to damage the vehicle and or jeopardise safety Austroads 2011 Austroads Test Method AG AM T001 Pavement Ro
4. relevant to the use of lasers in road condition measurement This information has been included to raise awareness of issues and does not override safety warnings procedures specified by equipment suppliers or other relevant work practices or standards Refer to equipment documentation and AS 2211 2004 Standards Australia 2004 for further information 2 REFERENCED DOCUMENTS ASTM E 1926 08 Standard practice for computing International Roughness Index of roads from longitudinal profile measurements Austroads Test Method AG AM T002 Pavement roughness validation checks for an inertial laser profilometer reference device method March 2011 Austroads Test Method AG AM T003 Pavement roughness validation checks for an inertial laser profilometer loop method March 2011 International Organization for Standardization ISO 2007 International vocabulary of metrology basic and general concepts and associated terms VIM ISO IEC Guide 99 3 edn International Organization for Standardization ISO 2005 Quality management systems fundamentals and vocabulary ISO 9000 2005 ISO Geneva Austroads 2011 f Austroads Test Method AG AM T001 Pavement Roughness Measurement with an Inertial Laser Profilometer National Association of Australian State Road Authorities 1981 Standard operating instructions for the NAASRA roughness meter and guide for the serviceability rating of road pavements Austroads Publication MEC 4 Standa
5. Austroads Test Method AG AM T001 Pavement Roughness Measurement with an Inertial Laser Profilometer AUSTROADS TEST METHOD AG AM T001 PAVEMENT ROUGHNESS MEASUREMENT WITH AN INERTIAL LASER PROFILOMETER 1 SCOPE This test method defines the procedure for measuring the roughness of road pavements determined from the direct measurement of the longitudinal profile of the road surface using a vehicle mounted inertial laser based non contact device i e a laser profilometer Roughness collected using this test method is expressed in terms of the International Roughness Index IRI Conversion of IRI to equivalent NAASRA Roughness Meter NRM counts is included A single test measurement produced by this method is the average lane IRI of a 100 m length of road Inertial profilometers used in accordance with this Test Method are operated by a designated operator who is responsible for all aspects of the test and usually a vehicle driver The driver is responsible for driving the profilometer vehicle in a safe and legal manner This test is often conducted in conjunction with the measurement of road pavement rutting and surface texture depth This test method does not address all occupational health and safety issues associated with its use It is the responsibility of the user to operate in accordance with appropriate legislation Annex 1 of this Test Method outlines in general terms only some of the hazards and precautions
6. e by blinking or looking away The major difference between exposure to the eye or skin is that the eye focuses the laser light onto the back of the eye There are two types of eye injury that can result from exposure to laser light a thermal injury heat from the laser light causes a change in proteins in the eye similar to the change in egg white that occurs when an egg is cooked this damage may or may not be permanent b thermal mechanical injury heat from the laser light causes blood vessels in the eye to rupture this damage cannot be repaired Austroads 2011 es Austroads Test Method AG AM T001 Pavement Roughness Measurement with an Inertial Laser Profilometer LASER IDENTIFICATION Lasers are identified by a number of warning labels including warning symbols class identifiers wavelength labels and aperture markers The laser aperture marker indicates the aperture through which the laser is emitted Before testing calibrating or using a laser system it is important to be aware of the location of all laser apertures Wavelength labels indicate the wavelength nm of the emitted laser light Laser safety glasses and laser indicator cards must be selected to match the wavelength of the laser with which they will be used Laser indicator cards must be used when determining the direction of a laser beam Cards used must be appropriate for the wavelength of the lasers Safety glasses suitable for the wavele
7. ers using the step gauge block and flat plates each time the lasers are refitted to the vehicle Ensure that the serial numbers or other information that allows traceability to calibration documentation are recorded for all sensors Perform manufacturer s operational validation procedure bounce test refer to 6 2 and manufacturer s User Manual Operational Validation Procedure Bounce Test A manufacturer s operational validation test commonly known as a bounce test must be performed before the start of each day s testing refer to manufacturer s User Manual This test verifies the correct operation of the laser displacement transducers the accelerometers and their associated electronics The test simulates a bouncing vehicle travelling along a completely flat surface The measured profile should be zero as movement of the vehicle is expected to be cancelled out by the accelerometers However due to electronic noise and other factors a negligible roughness value is usually recorded i e less than 0 15 m km Throughout the bounce test roughness readings greater than 0 15 m km are unacceptable and survey testing must not commence until the causes for the high reading have been identified and corrected Profile Survey The operator shall follow manufacturer s instructions for use of the equipment refer manufacturer s User Manual The lane to be surveyed is called the test lane For routine
8. he relationship between values of quantities indicated by a measuring instrument or measuring system of values represented by a material measure or a reference material and the corresponding values realised by measurement standards Validation ISO 1994 defines validation as confirmation through the provision of objective evidence that requirements for a specific intended use or application have been fulfilled EQUIPMENT The following equipment is required a An inertial laser profilometer consisting of the following A vehicular platform capable of transporting testing equipment mounting the profile measuring equipment and travelling at a range of speeds up to the limit of the operating range of the profile measuring equipment Accelerometer s to establish the inertial reference which enables reference to be maintained at the level of resolution and accuracy required for the displacement measurement transducer s A displacement transducer laser device which measures the distance between the accelerometer and the travelled surface The displacement transducer s shall be set to ensure mid range operation during normal operation Note When measuring the profile of two wheelpaths simultaneously a laser transducer accelerometer combination shall be used for each wheelpath The lateral distance between the displacement transducers to measure in the wheelpaths shall be 1 5 m i e 0 75 m from the centreline of
9. ngth of the lasers must be worn when using laser indicator cards JEWELLERY AND OTHER REFLECTIVE OBJECTS It is important that reflective objects not be put in the path of an operating laser beam When checking testing or calibrating a laser all jewellery watches rings etc must be removed from the hands and wrists CALIBRATION BLOCKS AND PLATES Laser system manufacturers usually supply calibration blocks plates with their equipment and it is important that only these blocks plates be used for calibration The surface finish of these blocks is manufactured to provide a diffuse reflection of laser beams reducing the risk of exposure to damaging levels of laser radiation Austroads 2011 9s Austroads Test Method AG AM T001 Pavement Roughness Measurement with an Inertial Laser Profilometer AMENDMENT RECORD Amendment No Sections amended Action Date 1 Initial release All Michael Moffatt ARRB New 26 March 2007 2 Revised release All Richard Wix ARRB project AT1484 Substitution 2 March 2011 1 Key Format change in format Substitution old section removed and replaced with new section New insertion of new section Removed old section removed Austroads 2011 40
10. nt Roughness Measurement with an Inertial Laser Profilometer AUSTROADS TEST METHOD AG AM T001 PAVEMENT ROUGHNESS MEASUREMENT WITH AN INERTIAL LASER PROFILOMETER ANNEX 1 LASER SAFETY INTRODUCTION Lasers used in road condition measurement systems can present a risk of injury if they are operated incorrectly This Annex outlines in general terms only some of the hazards and precautions relevant to the use of lasers in road condition measurement This information has been included in order to raise awareness of issues It does not override safety warnings procedures specified by equipment suppliers or other relevant work practices requirements or standards Refer to AS2211 2004 Standards Australia 2004 for further information The lasers used in profilometers are classified as Class 2 3B and 3R lasers Standards Australia 2004 and may be visible having a wavelength less than 700 nm or invisible infrared wavelength greater than 700 nm PERSONNEL Only trained personnel should operate laser equipment Personnel unfamiliar with laser safety procedures must be kept away from operating lasers by verbal instruction or by use of warning signs screens or other hazard warning devices RISKS The extent of damage that lasers can cause to the eye or skin is dependent upon the duration of exposure Due to its concentrated nature laser light whether visible or invisible can cause damage to the eye before the eye can avoid exposur
11. ny part of the host vehicle that may interfere with the existing calibration constant e g change of wheels or tyres 5 1 2 Accelerometers Calibration and checking of the accelerometers must be undertaken in accordance with the manufacturer s requirements and procedures refer manufacturer s User Manual 5 1 3 Laser Displacement Transducers a The laser displacement transducers must be calibrated in accordance with the manufacturer s requirements refer to manufacturer s User Manual b The transducers must be calibrated immediately following any change to the laser transducers or a change to any part of the host vehicle that may interfere with the existing calibration 5 2 System Validation A system validation must have been undertaken In the absence of other specified requirements the following must be applied a Validation of distance measurement must be conducted in accordance with AG AM T005 b Validation of roughness measurement must be carried out in accordance with Austroads Test Method AG AM T002 or Test Method AG AM T003 c Atany stage during a data collection exercise the last successfully passed validation must be within the last 12 months Austroads 2011 Austroads Test Method AG AM T001 Pavement Roughness Measurement with an Inertial Laser Profilometer 6 6 1 a PROCEDURE Pre test Set up If the laser equipment is of a demountable design calibrate the vertical distance transduc
12. onsistency of practice among road agencies in Australasia Austroads recommends use of the Single Track IRI track averaging quarter car method and it is this method that is used throughout this Test Method Further explanation of these methods is provided in the Guide to Asset Management Part 5B Roughness Using the Single Track IRI averaging quarter car method Lane IRI is determined by averaging two individual Single Track IRI values obtained separately in each wheelpath of a lane at 0 75 m on either side of the centre of the lane mid track Austroads 2011 MEE E Austroads Test Method AG AM T001 Pavement Roughness Measurement with an Inertial Laser Profilometer 4 NAASRA Roughness Meter NRM A standard mechanical device used extensively in Australian and New Zealand since the 1970s for measuring road roughness by recording the upward movement of the rear axle of a standard station wagon relative to the vehicle s body as the vehicle travels at a standard speed along the road being tested A cumulative upward vertical movement of 15 2 mm corresponds to 1 NAASRA Roughness Count Refer to NAASRA 1981 for further details For reporting purposes this test method allows for the determination of NAASRA Roughness Counts using the following relationship NAASRA counts km 26 49 x Lane IRI m km 1 27 Calibration ISO 1993 defines calibration as a set of operations that establish under specified conditions t
13. rds Australia 2004 Safety of laser products equipment classification requirements and users guide 3 a IEC 60825 1 2001 MOD AS NZS 2211 1 2004 Standards Australia Sydney NSW DEFINITIONS Longitudinal profile Longitudinal profile is the shape of a pavement surface measured as vertical distances from a datum horizontal plane along the direction of traffic flow Laser profilometer A laser profilometer or laser profiler is a vehicle fitted with a laser based measurement system that records the measured longitudinal road profile International Roughness Index IRI The IRI is a mathematical model of the dynamic response of a real vehicle travelling along a single wheelpath or wheel track of longitudinal road profile referred to as the quarter car or World Bank model The IRI is expressed in terms of accumulated displacement of the simulated suspension in metres per measured kilometre m km IRI can be reported in different ways as follows Single Track IRI The IRI based on a quarter car model run at 80 km h over a single wheelpath of longitudinal profile ASTM E 1926 98 2003 Lane IRI This is a composite IRI value representing the roughness of a road lane section It can be determined by two methods profile averaging also know as the half car method and Single Track IRI track averaging quarter car method Both methods offer a good correlation with NAASRA Roughness Counts With a goal of achieving c
14. ughness Measurement with an Inertial Laser Profilometer 6 4 a b 7 Testing must not be performed during periods of rain or where the road surface is wet If a localised section of wet road is encountered it must be noted and or flagged Section 6 4 Arrangements shall be made to test the section when weather conditions are more favourable if required Factors Affecting the Test There are a range of factors that may affect roughness measurements and when encountered during surveys the relevant test result must be marked and reported with a note or flag Example factors include deviation from the test lane test speeds outside the operating range of the equipment especially low speeds hard acceleration deceleration cornering tortuous road geometry bridge abutments expansion joints cattle grids timber grid bridge decks rail tracks and crossings access pit covers local area traffic management installations e g soeed humps roundabouts etc localised areas of free standing flowing water on the road surface localised areas of contamination of the road surface e g mud debris etc Record any unusual features and events that might influence the results CALCULATIONS Calculate the following a b the single track IRlgc using the quarter car model for each wheelpath for each 100 m section being tested the lane IRI for each lane for each 100 m section being tested is as follows
Download Pdf Manuals
Related Search