Characterizing Perception Module Performance and Robustness in Production-Scale Autonomous Driving System - Network and Parallel Computing
Conference Papers Year : 2019

Characterizing Perception Module Performance and Robustness in Production-Scale Autonomous Driving System

Abstract

Autonomous driving is a field that gathers many interests in academics and industry and represents one of the most important challenges of next years. Although individual algorithms of autonomous driving have been studied and well understood, there is still a lack of study for those tasks in a production-scale system. In this work, we profile and analyze the perception module of the open-source autonomous driving system Apollo, developed by Baidu, in terms of response time and robustness against sensor errors. The perception module is fundamental to the proper functioning and safety of autonomous driving, which relies on several sensors, such as LIDARs and cameras, for detecting obstacles and perceiving the surrounding environment. We identify the computation characteristics and potential bottlenecks in the perception module. Furthermore, we design multiple noise models for the camera frames and LIDAR cloud points to test the robustness of the whole module in terms of accuracy drop against a noise-free baseline. Our insights are useful for future performance and robustness optimization of autonomous driving system.
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Dates and versions

hal-03770538 , version 1 (06-09-2022)

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Alessandro Toschi, Mustafa Sanic, Jingwen Leng, Quan Chen, Chunlin Wang, et al.. Characterizing Perception Module Performance and Robustness in Production-Scale Autonomous Driving System. 16th IFIP International Conference on Network and Parallel Computing (NPC), Aug 2019, Hohhot, China. pp.235-247, ⟨10.1007/978-3-030-30709-7_19⟩. ⟨hal-03770538⟩
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