Design of an Autonomous Racecar: Perception, State Estimation and System Integration

April 09, 2018 Β· Declared Dead Β· πŸ› IEEE International Conference on Robotics and Automation

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Authors Miguel de la Iglesia Valls, Hubertus Franciscus Cornelis Hendrikx, Victor Reijgwart, Fabio Vito Meier, Inkyu Sa, Renaud DubΓ©, Abel Roman Gawel, Mathias BΓΌrki, Roland Siegwart arXiv ID 1804.03252 Category cs.RO: Robotics Citations 44 Venue IEEE International Conference on Robotics and Automation Last Checked 2 months ago
Abstract
This paper introduces flΓΌela driverless: the first autonomous racecar to win a Formula Student Driverless competition. In this competition, among other challenges, an autonomous racecar is tasked to complete 10 laps of a previously unknown racetrack as fast as possible and using only onboard sensing and computing. The key components of flΓΌela's design are its modular redundant sub-systems that allow robust performance despite challenging perceptual conditions or partial system failures. The paper presents the integration of key components of our autonomous racecar, i.e., system design, EKF-based state estimation, LiDAR-based perception, and particle filter-based SLAM. We perform an extensive experimental evaluation on real-world data, demonstrating the system's effectiveness by outperforming the next-best ranking team by almost half the time required to finish a lap. The autonomous racecar reaches lateral and longitudinal accelerations comparable to those achieved by experienced human drivers.
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