Abstract
Autonomous driving is a promising technology to reduce traffic accidents and improve driving efficiency. In this work, a deep reinforcement learning (DRL)-enabled decision-making policy is constructed for autonomous vehicles to address the overtaking behaviors on the highway. First, a highway driving environment is founded, wherein the ego vehicle aims to pass through the surrounding vehicles with an efficient and safe maneuver. A hierarchical control framework is presented to control these vehicles, which indicates the upper-level manages the driving decisions, and the lower-level cares about the supervision of vehicle speed and acceleration. Then, the particular DRL method named dueling deep Q-network (DDQN) algorithm is applied to derive the highway decision-making strategy. The exhaustive calculative procedures of deep Q-network and DDQN algorithms are discussed and compared. Finally, a series of estimation simulation experiments are conducted to evaluate the effectiveness of the proposed highway decision-making policy. The advantages of the proposed framework in convergence rate and control performance are illuminated. Simulation results reveal that the DDQN-based overtaking policy could accomplish highway driving tasks efficiently and safely.
Highlights
Autonomous driving (AD) enables the vehicle to engage different driving missions without a human driver [1], [2]
The main contributions and innovations of this work can be cast into three perspectives: 1) an adaptive and optimal deep reinforcement learning (DRL)-based highway overtaking strategy is proposed for automated vehicles; 2) the dueling deep Q-network (DDQN) algorithm is leveraged to address the large state space of the decision-making problem; 3) the convergence rate and control optimization of the derived decision-making policy are demonstrated by multiple designed experiments
AND EVALUATION the proposed highway decision-making policy is estimated by comparing it with the benchmark methods
Summary
Autonomous driving (AD) enables the vehicle to engage different driving missions without a human driver [1], [2]. The main contributions and innovations of this work can be cast into three perspectives: 1) an adaptive and optimal DRL-based highway overtaking strategy is proposed for automated vehicles; 2) the dueling deep Q-network (DDQN) algorithm is leveraged to address the large state space of the decision-making problem; 3) the convergence rate and control optimization of the derived decision-making policy are demonstrated by multiple designed experiments.
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