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本文(AASHTO R 85-2018 Standard Practice for Quantifying Cracks in Asphalt Pavement Surfaces from Collected Pavement Images Utilizing Automated Methods.pdf)为本站会员(bonesoil321)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

AASHTO R 85-2018 Standard Practice for Quantifying Cracks in Asphalt Pavement Surfaces from Collected Pavement Images Utilizing Automated Methods.pdf

1、 Standard Practice for Quantifying Cracks in Asphalt Pavement Surfaces from Collected Pavement Images Utilizing Automated Methods AASHTO Designation: R 85-181 Technical Section: 5a, Pavement Measurement Release: Group 1 (April) American Association of State Highway and Transportation Officials 444 N

2、orth Capitol Street N.W., Suite 249 Washington, D.C. 20001 TS-5a R 85-1 AASHTO Standard Practice for Quantifying Cracks in Asphalt Pavement Surfaces from Collected Pavement Images Utilizing Automated Methods AASHTO Designation: R 85-181Technical Section: 5a, Pavement Measurement Release: Group 1 (Ap

3、ril) 1. SCOPE 1.1. This practice outlines the procedures for quantifying cracking distress at the network level in asphalt pavement surfaces utilizing automated methods. Detailed specifications are not included for equipment, instruments, or the associated software used to process the images. Accord

4、ing to these specifications, any equipment that can be adequately validated to meet the functionality stipulated herein is considered acceptable. The goal is to achieve a significant level of standardization, which will contribute to the production of consistent pavement condition estimates while no

5、t unduly limiting innovation. 1.2. The automation level covered by this standard involves minimal human intervention in the process. It is understood that the current level of technology requires significant human review of the automation process to verify performance of the system. It is anticipate

6、d that the required level of human intervention will decline over the next few years. 1.3. Collect the pavement images to be processed according to R 86. 1.4. Sampling of pavement images from the data collection standard process is acceptable before proceeding with the analysis process in this stand

7、ard. The data sample is to be large enough to provide the confidence level required by the agency. Sample size and spacing will depend on construction practices and numerous other factors that impact pavement continuity. A 100 percent sample is recommended until a sampling method can be supported by

8、 statistical analysis. 1.5. This practice does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations rela

9、ted to and prior to its use. 2. REFERENCED DOCUMENTS 2.1. AASHTO Standard: R 86, Collecting Images of Pavement Surfaces for Distress Detection 2018 by the American Association of State Highway and Transportation Officials. All rights reserved. Duplication is a violation of applicable law.TS-5a R 85-

10、2 AASHTO 3. TERMINOLOGY 3.1. cracka fissure of the pavement material at the surface with minimum dimensions of 1-mm (0.04-in.) width and 25-mm (1-in.) length. 3.2. crack lengththe length measured along the crack path using all available data points between crack termini. 3.3. crack orientationthe an

11、gular measurement in degrees between the direction of travel and a line drawn between the crack termini as measured within the measurement zone of interest. 3.4. crack positionthe coordinates of the midpoint of the crack measured perpendicular to the shoulder edge of the pavement and the longitudina

12、l location relative to the starting collection point. 3.5. crack terminusthe point at which the crack width goes below and remains less than 1 mm (0.04 in.) for a 10-mm (0.4-in.) length, or the intersection with another crack, or the end of a summary section. 3.6. crack widththe average gap in milli

13、meters (inches) between the two edges of a crack measured at points along the crack with a spacing between 1 mm (0.04 in.) and 10 mm (0.4 in.). 3.7. extent of crackingthe sum of the lengths in meters (feet) of all cracks in the summary section and zone where appropriate. Note 1For pattern cracking,

14、agencies have the option to report extent by area as the sum of the areas in square meters (square feet) of all pattern areas for each zone within the summary section. 3.8. inside wheel patha longitudinal strip of pavement 1.0 m (39 in.) wide and centered 0.875 m (35 in.) to the left of the centerli

15、ne of the lane in the direction of travel. 3.9. lanethe traveled surface between the inside edge of the pavement markings. In the absence of markings, an equivalent portion of the pavement surface. Note 2Where cracks (or the paved surface edge) exist beyond the pavement markings, but within 0.3 m (1

16、 ft) of the pavement markings, agencies have the option to move the lane edges so that the lateral extent of the lane is increased to include the new boundary. 3.10. longitudinal cracka crack at least 0.3 m (12 in.) long and with a crack orientation between and including +20 and 20 degrees relative

17、to the lane centerline. 3.11. measurement zoneone of the five strips of pavement created by the wheel paths and the areas between and outside the wheel paths. 3.12. other crackall cracks not identified as longitudinal, pattern, or transverse. 3.13. outside wheel patha longitudinal strip of pavement

18、1.0 m (39 in.) wide and centered 0.875 m (35 in.) to the right of the centerline of the lane in the direction of travel. 3.14. pattern cracka crack that is part of a network of cracks that form an identifiable area or grouping of cracks. Note 3An identifiable area or grouping of cracks may be determ

19、ined by interconnecting cracks with a length of less than 0.3 m (12 in.) or through a process designed to separate independent cracks from cracks that due to their proximity are likely related. The process could be based on machine learning or other artificial intelligence techniques. One method cur

20、rently being evaluated establishes 150 mm (6 in.) buffers around each crack and computes how much of the buffer area is 2018 by the American Association of State Highway and Transportation Officials. All rights reserved. Duplication is a violation of applicable law.TS-5a R 85-3 AASHTO shared with th

21、e buffer areas for other cracks. A crack sharing less than a threshold of its area (50%) with other cracks is considered independent and not part of a pattern. 3.15. pavement imagea representation of the pavement that describes a characteristic (gray scale, color, temperature, elevation, etc.) of a

22、matrix of points (pixels) on the pavement surface. 3.16. severity of crackingthe average width in millimeters (inches) of all cracks in the summary section and zone where appropriate. 3.17. summary sectiona portion of a pavement lane over which the data are summarized. 3.18. transverse cracka crack

23、at least 0.3 m (12 in.) long and with a crack orientation between and including 70 and 110 degrees relative to the lane centerline. 4. SIGNIFICANCE AND USE 4.1. This practice outlines the procedures for quantifying cracking distress at the network level in asphalt pavement surfaces utilizing automat

24、ed methods. 4.2. The level of development of the current technology requires that the collection and analysis processes be linked together. It is hoped that in the future, a standard set of pavement images may be created by the collection equipment from a standard pavement distress simulation packag

25、e yet to be developed and used to evaluate and control the performance of this method. 5. DATA COLLECTION 5.1. Data are collected according to R 86. 6. DATA REDUCTIONCRACK DETECTION 6.1. The system that detects the presence of a pavement anomaly that is commonly considered a crack typically involves

26、 one or more image analysis software routines. 6.2. It is anticipated that future detection processes may involve the analysis of pavement images of multiple characteristics to improve the reliability of the detection process. As of this revision, elevation processes are becoming available. 6.3. The

27、 detection process is clearly dependent on the quality of the pavement images to be analyzed. Currently, there is no reliable method to independently measure the performance of the collection and analysis processes. The criteria listed herein therefore represent the requirements of the total collect

28、ion and analysis system. It is anticipated that a reliable method will be developed to independently establish the image quality so that, in the future, each process can be evaluated separately. Until then, a validation process is described in Section 10. 6.4. An acceptable result of this process is

29、 a crack map in which at least: 6.4.1. Thirty-three percent of the cracks less than 3 mm (0.12 in.) and 60 percent of cracks from 3 mm (0.12 in.) to less than 5 mm (0.2 in.) wide are mapped (see Note 4). 6.4.2. Eighty-five percent of the cracks 5 mm (0.2 in.) or wider are mapped (see Note 4). 6.4.3.

30、 A crack is considered mapped if at least 85 percent of its length is detected (see Note 4). 2018 by the American Association of State Highway and Transportation Officials. All rights reserved. Duplication is a violation of applicable law.TS-5a R 85-4 AASHTO 6.4.4. The pavement images should be suff

31、iciently void of erroneous differences between data point values such that a section of pavement without distress, discontinuities, or pavement markings contains less than 3 m (10 ft) total length of detected false cracking in 50 m2(540 ft2) of pavement (see Note 4). The determination of this capabi

32、lity will be made utilizing a minimum of ten 0.03-km (100-ft) samples of various pavement types that meet the criteria. Note 4These performance values are the estimates of a panel of experts based on current technology. Ongoing research and equipment developments will better define and improve these

33、 values over the next few years. As capabilities are better defined, separate levels of performance may be established for two or three classes of equipment and software. 7. DATA ANALYSISCRACK CLASSIFICATION AND VALUATION 7.1. The summary section distance for cracking data is recommended to be 0.015

34、 km (0.01 mi) or less to more clearly identify extent. 7.2. Detected pattern cracks and longitudinal cracks (not transverse) are separated into five measurement zones across the pavement (see Figure 1). 7.2.1. Zone 1 is between the inside wheel path and the lane edge at the adjacent lane. 7.2.2. Zon

35、e 2 is the inside wheel path. 7.2.3. Zone 3 is the space between the wheel paths. 7.2.4. Zone 4 is the outside wheel path. 7.2.5. Zone 5 is between the outside wheel path and the outside lane edge. Figure 1Cross Section of Survey Lane Showing Wheel Paths and Defined Survey Area between Wheel Paths 7

36、.3. Pattern cracks will be summarized by: 2018 by the American Association of State Highway and Transportation Officials. All rights reserved. Duplication is a violation of applicable law.TS-5a R 85-5 AASHTO 7.3.1. The sum of the lengths in meters (feet) of all pattern cracks in the summary section

37、shall be the extent of pattern cracking for each zone within the summary section. (Additionally, an extent by area can be reported as defined in Note 1 of Section 3.7.) 7.3.2. The average width in millimeters (inches) of all pattern cracks in the summary section for a given zone shall be the severit

38、y of the pattern cracking for that zone within the summary section. 7.4. Longitudinal cracks will be summarized by: 7.4.1. The sum of the lengths in meters (feet) of all longitudinal cracks in the summary section shall be the extent of longitudinal cracking for each zone within the summary section.

39、7.4.2. The average width in millimeters (inches) of all longitudinal cracks within the summary section for a given zone shall be the severity of longitudinal cracking for that zone within the summary section. 7.5. Other cracks will be summarized by: 7.5.1. The sum of the lengths in meters (feet) of

40、all other cracks in the summary section shall be the extent of other cracking for each zone within the summary section. The average width in millimeters (inches) of all other cracks within the summary section for a given zone shall be the severity of other cracking for that zone within the summary s

41、ection. 7.6. Transverse cracks will be summarized by: 7.6.1. The sum of the lengths in meters (feet) of all the transverse cracks in the summary section shall be the extent of transverse cracking within the summary section. 7.6.2. The average width in millimeters (inches) of all transverse cracks wi

42、thin the summary section shall be the severity of transverse cracking within the summary section. Note 5Cracks detected from intensity images alone and that are greater than 25 mm (1 in.) wide may reflect that a narrower crack is present and was sealed. Intensity images alone cannot separate these c

43、onditions. If this is the only technology employed, it is recommended that the system flag these occurrences for technician analysis. This analysis can be supported by input from the data collection operator by flagging when crack sealing is present. The advent of elevation images that can be analyz

44、ed along with intensity images should resolve this issue. 8. DATA REPORTING 8.1. The calculated extent of longitudinal cracks, pattern cracks, and other cracks shall be reported by measurement zone for each crack category. The calculated extent of transverse cracks shall be reported as a single valu

45、e for the entire summary section. 8.2. The calculated severity of longitudinal cracks, pattern cracks, and other cracks in each measurement zone shall be the reported severity for that crack category. The calculated severity of transverse cracks shall be reported as a single value for the entire sum

46、mary section. Note 6Therefore, each summary section will have 32 values that characterize the cracking contained therein if both extent and severity are deemed necessary. 9. DATA INTERPRETATION 9.1. The agency is free to utilize the reported data as best fits its pavement management needs. 2018 by t

47、he American Association of State Highway and Transportation Officials. All rights reserved. Duplication is a violation of applicable law.TS-5a R 85-6 AASHTO 9.2. Any increase in the extent and severity of cracking in Zones 2 and 4 above that in Zone 3 is expected to typically reflect the impact of t

48、raffic loading. 9.3. Agencies are alerted that dividing the scalar extent and severity values into level categories or bins can result in erratic results. When values are near the bin limits, natural variation in the data will cause dramatic shifts in results. Such converting can be useful, however,

49、 for general comparison to previously collected data in which bin limits were used. 10. SYSTEM VALIDATION 10.1. The process of calibrating and checking the performance of the crack detection and analysis process is left to the agency. Generally, the agency should follow the manufacturers recommendations for calibrating and verifying the performance of the process. The following considerations should be included in any program. 10.2. The interrelationship between the supplied pavement images and the performance of the processing system is evident. 10.3.

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