ROS-based localization of a race vehicle at high-speed using LIDAR

Tim Stahl; Alexander Wischnewski; Johannes Betz; Markus Lienkamp

doi:10.1051/e3sconf/20199504002

ROS-based localization of a race vehicle at high-speed using LIDAR

Tim Stahl, Alexander Wischnewski, Johannes Betz, Markus Lienkamp

Technische Universität München

Publikation: Beitrag in Fachzeitschrift › Konferenzartikel › Begutachtung

28 Zitate (Scopus)

Abstract

An approach for LIDAR-based localization at high speeds is presented. In the proposed framework, the laser pose estimation is treated as a parallel redundant information, which is fused in an adjacent Kalman filter. The measurement and motion update step of the ROS-based adaptive Monte Carlo localization package is modified, in order to meet the requirements of a high-speed race scenario. Thereby, the key focus is on computational efficiency and the adaptation to characteristics arising at high speeds and at the limits of handling. An introspective performance evaluation monitors the position estimation process and labels generated outputs for adjacent components accordingly. The effectiveness of the proposed algorithm is illustrated in a real world high-speed experiment, autonomously driving a race vehicle-the DevBot-in a typical race environment.

Originalsprache	Englisch
Aufsatznummer	04002
Fachzeitschrift	E3S Web of Conferences
Jahrgang	95
DOIs	https://doi.org/10.1051/e3sconf/20199504002
Publikationsstatus	Veröffentlicht - 13 Mai 2019
Veranstaltung	3rd International Conference on Power, Energy and Mechanical Engineering, ICPEME 2019 - Prague, Tschechische Republik Dauer: 16 Feb. 2019 → 19 Feb. 2019

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abstract = "An approach for LIDAR-based localization at high speeds is presented. In the proposed framework, the laser pose estimation is treated as a parallel redundant information, which is fused in an adjacent Kalman filter. The measurement and motion update step of the ROS-based adaptive Monte Carlo localization package is modified, in order to meet the requirements of a high-speed race scenario. Thereby, the key focus is on computational efficiency and the adaptation to characteristics arising at high speeds and at the limits of handling. An introspective performance evaluation monitors the position estimation process and labels generated outputs for adjacent components accordingly. The effectiveness of the proposed algorithm is illustrated in a real world high-speed experiment, autonomously driving a race vehicle-the DevBot-in a typical race environment.",

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AB - An approach for LIDAR-based localization at high speeds is presented. In the proposed framework, the laser pose estimation is treated as a parallel redundant information, which is fused in an adjacent Kalman filter. The measurement and motion update step of the ROS-based adaptive Monte Carlo localization package is modified, in order to meet the requirements of a high-speed race scenario. Thereby, the key focus is on computational efficiency and the adaptation to characteristics arising at high speeds and at the limits of handling. An introspective performance evaluation monitors the position estimation process and labels generated outputs for adjacent components accordingly. The effectiveness of the proposed algorithm is illustrated in a real world high-speed experiment, autonomously driving a race vehicle-the DevBot-in a typical race environment.

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ROS-based localization of a race vehicle at high-speed using LIDAR

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