ERROR SOURCES IN PROCCESSING LIDAR BASED BRIDGE INSPECTION
- 1Department of Automation, Jiangsu University of Science and Technonogy, No. 2 Mengxi Road, Zhenjiang, China
- 2Department of Civil and Environmental Engineering, UNC Charlotte, 9201 University City Blvd, Charlotte, USA
- 3College of Transportation, Dalian University of Technology, No.2 Linggong Road, Dalian, China
Keywords: Bridge Inspection, LiDAR Application, Data Quality Management, Remote Sensing
Abstract. Bridge inspection is a critical task in infrastructure management and is facing unprecedented challenges after a series of bridge failures. The prevailing visual inspection was insufficient in providing reliable and quantitative bridge information although a systematic quality management framework was built to ensure visual bridge inspection data quality to minimize errors during the inspection process. The LiDAR based remote sensing is recommended as an effective tool in overcoming some of the disadvantages of visual inspection. In order to evaluate the potential of applying this technology in bridge inspection, some of the error sources in LiDAR based bridge inspection are analysed. The scanning angle variance in field data collection and the different algorithm design in scanning data processing are the found factors that will introduce errors into inspection results. Besides studying the errors sources, advanced considerations should be placed on improving the inspection data quality, and statistical analysis might be employed to evaluate inspection operation process that contains a series of uncertain factors in the future. Overall, the development of a reliable bridge inspection system requires not only the improvement of data processing algorithms, but also systematic considerations to mitigate possible errors in the entire inspection workflow. If LiDAR or some other technology can be accepted as a supplement for visual inspection, the current quality management framework will be modified or redesigned, and this would be as urgent as the refine of inspection techniques.