1. The Effect of Spray Water on an Automotive LIDAR Sensor: A Real-Time Simulation Study
- Author
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Jia Chen, Boris Buschardt, Thiemo Gerbich, and Jose Roberto Vargasrivero
- Subjects
Control and Optimization ,Computer science ,business.industry ,Real-time computing ,Point cloud ,Automotive industry ,Solver ,Tracking (particle physics) ,GeneralLiterature_MISCELLANEOUS ,Software quality ,Software ,Lidar ,Artificial Intelligence ,Real-time simulation ,Automotive Engineering ,business - Abstract
This paper presents the first of its kind real-time simulation of the effect of spray water on an automotive LIDAR sensor. The simulation is based on physically measurable quantities in order to facilitate its validation and extension. Both the sensor and the environment are simulated using open software tools: Blender and Cycles, with the objective of facilitating standardization and broader adoption. The parameters required to construct and calibrate the simulation are extracted from real measurements done on a test area and highway covering different water film thicknesses and vehicle speeds. The simulation is validated in different stages, first by comparing the trajectories of the particles with a regular solver and secondly, by the spatial distribution of the virtual and real point clouds with the measurement results. The resulting framework can be easily expanded to cover scenarios that are more complex and other phenomena counterproductive to the performance of a LIDAR sensor like dirt, exhaust gases, snow, rain and fog. The virtually generated point clouds can be used to validate the performance of the software required for the segmentation, classification and tracking of objects generated by the LIDAR sensor, thereby reducing development costs and increasing software quality.
- Published
- 2022
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