Formula RL: Deep Reinforcement Learning for Autonomous Racing using Telemetry Data

Adrian Remonda; Sarah Krebs; Eduardo Enrique Veas; Granit Luzhnica; Roman Kern

Formula RL: Deep Reinforcement Learning for Autonomous Racing using Telemetry Data

Adrian Remonda, Sarah Krebs, Eduardo Enrique Veas, Granit Luzhnica, Roman Kern

Research output: Contribution to conference › Paper › peer-review

Abstract

This paper explores the use of reinforcement learning (RL) models for autonomous racing. In contrast to passenger cars, where safety is the top priority, a racing car aims to minimize the lap-time. We frame the problem as a reinforcement learning task with a multidimensional input consisting of the vehicle telemetry, and a continuous action space. To find out which RL methods better solve the problem and whether the obtained models generalize to driving on unknown tracks, we put 10 variants of deep de-terministic policy gradient (DDPG) to race in two experiments: i) studying how RL methods learn to drive a racing car and ii) studying how the learning scenario influences the capability of the models to generalize. Our studies show that models trained with RL are not only able to drive faster than the baseline open source handcrafted bots but also generalize to unknown tracks.

Original language	English
Publication status	Published - 2019
Event	Workshop on Scaling-Up Reinforcement Learning : SURL - Macau, China Duration: 10 Aug 2019 → 16 Aug 2019 http://surl.tirl.info/?p=program&y=2019

Workshop

Workshop	Workshop on Scaling-Up Reinforcement Learning
Country/Territory	China
Period	10/08/19 → 16/08/19
Internet address	http://surl.tirl.info/?p=program&y=2019

Keywords

Reinforcement Learning
Autonomous driving

Access to Document

https://www.researchgate.net/publication/333578520_Formula_RL_Deep_Reinforcement_Learning_for_Autonomous_Racing_using_Telemetry_Data

Cite this

Remonda, A, Krebs, S, Veas, EE , Luzhnica, G & Kern, R 2019, 'Formula RL: Deep Reinforcement Learning for Autonomous Racing using Telemetry Data', Paper presented at Workshop on Scaling-Up Reinforcement Learning , China, 10/08/19 - 16/08/19. <https://www.researchgate.net/publication/333578520_Formula_RL_Deep_Reinforcement_Learning_for_Autonomous_Racing_using_Telemetry_Data>

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title = "Formula RL: Deep Reinforcement Learning for Autonomous Racing using Telemetry Data",

abstract = "This paper explores the use of reinforcement learning (RL) models for autonomous racing. In contrast to passenger cars, where safety is the top priority, a racing car aims to minimize the lap-time. We frame the problem as a reinforcement learning task with a multidimensional input consisting of the vehicle telemetry, and a continuous action space. To find out which RL methods better solve the problem and whether the obtained models generalize to driving on unknown tracks, we put 10 variants of deep de-terministic policy gradient (DDPG) to race in two experiments: i) studying how RL methods learn to drive a racing car and ii) studying how the learning scenario influences the capability of the models to generalize. Our studies show that models trained with RL are not only able to drive faster than the baseline open source handcrafted bots but also generalize to unknown tracks.",

keywords = "Reinforcement Learning, Autonomous driving",

author = "Adrian Remonda and Sarah Krebs and Veas, {Eduardo Enrique} and Granit Luzhnica and Roman Kern",

year = "2019",

language = "English",

note = "Workshop on Scaling-Up Reinforcement Learning : SURL ; Conference date: 10-08-2019 Through 16-08-2019",

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T1 - Formula RL: Deep Reinforcement Learning for Autonomous Racing using Telemetry Data

AU - Remonda, Adrian

AU - Krebs, Sarah

AU - Veas, Eduardo Enrique

AU - Luzhnica, Granit

AU - Kern, Roman

PY - 2019

Y1 - 2019

N2 - This paper explores the use of reinforcement learning (RL) models for autonomous racing. In contrast to passenger cars, where safety is the top priority, a racing car aims to minimize the lap-time. We frame the problem as a reinforcement learning task with a multidimensional input consisting of the vehicle telemetry, and a continuous action space. To find out which RL methods better solve the problem and whether the obtained models generalize to driving on unknown tracks, we put 10 variants of deep de-terministic policy gradient (DDPG) to race in two experiments: i) studying how RL methods learn to drive a racing car and ii) studying how the learning scenario influences the capability of the models to generalize. Our studies show that models trained with RL are not only able to drive faster than the baseline open source handcrafted bots but also generalize to unknown tracks.

AB - This paper explores the use of reinforcement learning (RL) models for autonomous racing. In contrast to passenger cars, where safety is the top priority, a racing car aims to minimize the lap-time. We frame the problem as a reinforcement learning task with a multidimensional input consisting of the vehicle telemetry, and a continuous action space. To find out which RL methods better solve the problem and whether the obtained models generalize to driving on unknown tracks, we put 10 variants of deep de-terministic policy gradient (DDPG) to race in two experiments: i) studying how RL methods learn to drive a racing car and ii) studying how the learning scenario influences the capability of the models to generalize. Our studies show that models trained with RL are not only able to drive faster than the baseline open source handcrafted bots but also generalize to unknown tracks.

KW - Reinforcement Learning

KW - Autonomous driving

M3 - Paper

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Y2 - 10 August 2019 through 16 August 2019

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