Litcius/Paper detail

Uncertainty-Aware Decision-Making for Autonomous Driving at Uncontrolled Intersections

Xiaolin Tang, Guichuan Zhong, Shen Li, Kai Yang, Keqi Shu, Dongpu Cao, Xianke Lin

2023IEEE Transactions on Intelligent Transportation Systems42 citationsDOI

Abstract

Reinforcement learning (RL) has been widely used in the decision-making of autonomous vehicles (AVs) in recent studies. However, existing RL methods generally find the optimal policy by maximizing the expectation of future returns, which lacks distributional treatments of risky situations. Additionally, various uncertainties arising from the environment could also cause unreliable decisions, particularly in some complex urban environments. In this paper, the fully parameterized quantile network (FPQN) is utilized to estimate the full return distribution. Then, the conditional value-at-risk (CVaR) is utilized with the return distribution information to generate uncertainty-aware driving behavior. Additionally, an uncontrolled four-way intersection is developed by the Simulation of Urban Mobility (SUMO) simulation platform, which considers both the surrounding vehicles (SVs) and pedestrians. More specifically, to simulate the real-world traffic environment, the uncertainty arising from the occlusion, and the behavior uncertainty of surrounding traffic participants are also considered. The experiment results suggest that the proposed method outperforms the baseline methods in terms of safety. Furthermore, the results also indicate that the proposed method can make reasonable decisions in some challenging driving cases in the presence of uncertainty.

Topics & Concepts

CVARIntersection (aeronautics)Reinforcement learningComputer scienceQuantileParameterized complexityBaseline (sea)Mathematical optimizationExpected shortfallEngineeringArtificial intelligenceTransport engineeringEconometricsMathematicsRisk managementAlgorithmManagementEconomicsGeologyOceanographyAutonomous Vehicle Technology and SafetyTraffic control and managementVehicle emissions and performance
Uncertainty-Aware Decision-Making for Autonomous Driving at Uncontrolled Intersections | Litcius