TUM autonomous motorsport: An autonomous racing software for the Indy Autonomous Challenge

Author:

Betz Johannes1,Betz Tobias1,Fent Felix1,Geisslinger Maximilian1,Heilmeier Alexander1,Hermansdorfer Leonhard1,Herrmann Thomas1,Huch Sebastian1,Karle Phillip1ORCID,Lienkamp Markus1,Lohmann Boris2,Nobis Felix1,Ögretmen Levent2,Rowold Matthias2,Sauerbeck Florian1,Stahl Tim1,Trauth Rainer1,Werner Frederik1,Wischnewski Alexander2

Affiliation:

1. Technical University of Munich, School of Engineering & Design Institute of Automotive Technology (FTM) Garching Germany

2. Technical University of Munich, School of Engineering & Design Chair of Automatic Control (RT) Garching Germany

Abstract

AbstractFor decades, motorsport has been an incubator for innovations in the automotive sector and brought forth systems, like, disk brakes or rearview mirrors. Autonomous racing series such as Roborace, F1Tenth, or the Indy Autonomous Challenge (IAC) are envisioned as playing a similar role within the autonomous vehicle sector, serving as a proving ground for new technology at the limits of the autonomous systems capabilities. This paper outlines the software stack and approach of the TUM Autonomous Motorsport team for their participation in the IAC, which holds two competitions: A single‐vehicle competition on the Indianapolis Motor Speedway and a passing competition at the Las Vegas Motor Speedway. Nine university teams used an identical vehicle platform: A modified Indy Lights chassis equipped with sensors, a computing platform, and actuators. All the teams developed different algorithms for object detection, localization, planning, prediction, and control of the race cars. The team from Technical University of Munich (TUM) placed first in Indianapolis and secured second place in Las Vegas. During the final of the passing competition, the TUM team reached speeds and accelerations close to the limit of the vehicle, peaking at around and . This paper will present details of the vehicle hardware platform, the developed algorithms, and the workflow to test and enhance the software applied during the 2‐year project. We derive deep insights into the autonomous vehicle's behavior at high speed and high acceleration by providing a detailed competition analysis. On the basis of this, we deduce a list of lessons learned and provide insights on promising areas of future work based on the real‐world evaluation of the displayed concepts.

Publisher

Wiley

Subject

Computer Science Applications,Control and Systems Engineering

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