MetaLiDAR: Automated metamorphic testing of LiDAR-based autonomous driving systems

IF 1.7 4区 计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING
Zhen Yang, Song Huang, Changyou Zheng, Xingya Wang, Yang Wang, Chunyan Xia
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Abstract

Recent advances in artificial intelligence technology and perception components have promoted the rapid development of autonomous vehicles. However, as safety-critical software, autonomous driving systems often make wrong judgments, seriously threatening human and property safety. LiDAR is one of the most critical sensors in autonomous vehicles, capable of accurately perceiving the three-dimensional information of the environment. Nevertheless, the high cost of manually collecting and labeling point cloud data leads to a dearth of testing methods for LiDAR-based perception modules. To bridge the critical gap, we introduce MetaLiDAR, a novel automated metamorphic testing methodology for LiDAR-based autonomous driving systems. First, we propose three object-level metamorphic relations for the domain characteristics of autonomous driving systems. Next, we design three transformation modules so that MetaLiDAR can generate natural-looking follow-up point clouds. Finally, we define corresponding evaluation metrics based on metamorphic relations. MetaLiDAR automatically determines whether source and follow-up test cases meet the metamorphic relations based on the evaluation metrics. Our empirical research on five state-of-the-art LiDAR-based object detection models shows that MetaLiDAR can not only generate natural-looking test point clouds to detect 181,547 inconsistent behaviors of different models but also significantly enhance the robustness of models by retraining with synthetic point clouds.

Abstract Image

MetaLiDAR:基于激光雷达的自动驾驶系统自动变形测试
近年来,人工智能技术和感知组件的进步推动了自动驾驶汽车的快速发展。然而,作为对安全至关重要的软件,自动驾驶系统经常会做出错误判断,严重威胁人身和财产安全。激光雷达是自动驾驶汽车最关键的传感器之一,能够准确感知环境的三维信息。然而,人工收集和标注点云数据的成本高昂,导致基于激光雷达的感知模块测试方法匮乏。为了弥补这一关键差距,我们为基于激光雷达的自动驾驶系统引入了一种新型自动元测试方法--MetaLiDAR。首先,我们针对自动驾驶系统的领域特征提出了三个对象级的变形关系。接着,我们设计了三个转换模块,使 MetaLiDAR 能够生成自然的后续点云。最后,我们根据变形关系定义了相应的评估指标。MetaLiDAR 会根据评估指标自动判断源测试用例和后续测试用例是否符合变形关系。我们对五种基于激光雷达的先进物体检测模型进行的实证研究表明,MetaLiDAR 不仅能生成自然的测试点云,检测出不同模型的 181,547 种不一致行为,还能通过使用合成点云进行再训练,显著增强模型的鲁棒性。
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来源期刊
Journal of Software-Evolution and Process
Journal of Software-Evolution and Process COMPUTER SCIENCE, SOFTWARE ENGINEERING-
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发文量
109
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