Identifying Reaction-Aware Driving Styles of Stochastic Model Predictive Controlled Vehicles by Inverse Reinforcement Learning

Ni Dang, Tao Shi, Zengjie Zhang, Wanxin Jin, Marion Leibold, Martin Buss

Publikation: Beitrag in Buch/Bericht/KonferenzbandKonferenzbeitragBegutachtung

Abstract

The driving style of an Autonomous Vehicle (AV) refers to how it behaves and interacts with other AVs. In a multi-vehicle autonomous driving system, an AV capable of identifying the driving styles of its nearby AVs can reliably evaluate the risk of collisions and make more reasonable driving decisions. However, there has not been a consistent definition of driving styles for an AV in the literature, although it is considered that the driving style is encoded in the AV's trajectories and can be identified using Maximum Entropy Inverse Reinforcement Learning (ME-IRL) methods as a cost function. Nevertheless, an important indicator of the driving style, i.e., how an AV reacts to its nearby AVs, is not fully incorporated in the feature design of previous ME-IRL methods. In this paper, we describe the driving style as a cost function of a series of weighted features. We design additional novel features to capture the AV's reaction-aware characteristics. Then, we identify the driving styles from the demonstration trajectories generated by the Stochastic Model Predictive Control (SMPC) using a modified ME-IRL method with our newly proposed features. The proposed method is validated using MATLAB simulation and an off-the-shelf experiment.

OriginalspracheEnglisch
Titel2023 IEEE 26th International Conference on Intelligent Transportation Systems, ITSC 2023
Herausgeber (Verlag)Institute of Electrical and Electronics Engineers Inc.
Seiten2887-2892
Seitenumfang6
ISBN (elektronisch)9798350399462
DOIs
PublikationsstatusVeröffentlicht - 2023
Veranstaltung26th IEEE International Conference on Intelligent Transportation Systems, ITSC 2023 - Bilbao, Spanien
Dauer: 24 Sept. 202328 Sept. 2023

Publikationsreihe

NameIEEE Conference on Intelligent Transportation Systems, Proceedings, ITSC
ISSN (Print)2153-0009
ISSN (elektronisch)2153-0017

Konferenz

Konferenz26th IEEE International Conference on Intelligent Transportation Systems, ITSC 2023
Land/GebietSpanien
OrtBilbao
Zeitraum24/09/2328/09/23

Fingerprint

Untersuchen Sie die Forschungsthemen von „Identifying Reaction-Aware Driving Styles of Stochastic Model Predictive Controlled Vehicles by Inverse Reinforcement Learning“. Zusammen bilden sie einen einzigartigen Fingerprint.

Dieses zitieren