基于仿真的自动驾驶汽车鲁棒性验证测试场景生成器的开发

H. Hsiang, Kuan-Chung Chen, Yung-Yuan Chen
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引用次数: 1

摘要

本文探讨了如何通过调整各种交通场景以及可量化天气和干扰参数的不同严重程度,有效地增加自动驾驶汽车鲁棒性验证的测试场景。开发的自动化测试和验证工具基于VTD车辆仿真平台,可以快速生成各种天气条件。此外,考虑到相机受到挡风玻璃上雨滴的干扰,我们开发了一种更快、更逼真的雨滴干扰生成方法,可以量化不同雨滴大小、密度和流量干扰的生成,以增强自主感知系统测试场景的真实感和多样性。我们演示了在各种天气条件和干扰下使用所提出的工具来生成不同的测试场景。然后,在生成的测试场景下对人工智能目标检测模型进行测试,研究雨点在挡风玻璃上对目标检测模型鲁棒性的影响。本文的贡献在于提出了一种有效的基于仿真的测试场景生成器,提高了感知系统鲁棒性测试的测试覆盖率,缩短了测试验证时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of Simulation-Based Testing Scenario Generator for Robustness Verification of Autonomous Vehicles
This paper explores how to effectively increase the testing scenarios for robustness verification of autonomous vehicles by adjusting various traffic scenarios and different severity of quantifiable weather and interference parameters. The automated test and verification tools developed are based on the VTD vehicle simulation platform, which can quickly generate various weather conditions. In addition, considering the camera disturbed by the raindrops on windshield, we develop a faster and more realistic raindrop interference generation methodology, which can quantify the generation of different raindrop size, density, and flow interference, to enhance the realism and diversity of the testing scenarios of autonomous perception system. We demonstrate the usage of the proposed tools to generate the different testing scenarios under various weather conditions and interference. Then, the AI object detection models were tested under the generated testing scenarios to investigate the effect of raindrops on windshield on the robustness of the object detection model. The contribution of this work is to propose an effective simulation-based testing scenario generator to increase the test coverage and shorten the verification time of the robustness test of perception systems.
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