An Automated Driving Strategy Generating Method Based on WGAIL–DDPG

IF 1.6 4区 计算机科学 Q3 AUTOMATION & CONTROL SYSTEMS
Mingheng Zhang, Xingyi Wan, L. Gang, Xin Lv, Zengwen Wu, Zhaoyang Liu
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引用次数: 1

Abstract

Abstract Reliability, efficiency and generalization are basic evaluation criteria for a vehicle automated driving system. This paper proposes an automated driving decision-making method based on the Wasserstein generative adversarial imitation learning–deep deterministic policy gradient (WGAIL–DDPG(λ)). Here the exact reward function is designed based on the requirements of a vehicle’s driving performance, i.e., safety, dynamic and ride comfort performance. The model’s training efficiency is improved through the proposed imitation learning strategy, and a gain regulator is designed to smooth the transition from imitation to reinforcement phases. Test results show that the proposed decision-making model can generate actions quickly and accurately according to the surrounding environment. Meanwhile, the imitation learning strategy based on expert experience and the gain regulator can effectively improve the training efficiency for the reinforcement learning model. Additionally, an extended test also proves its good adaptability for different driving conditions.
基于WGAIL-DDPG的自动驾驶策略生成方法
可靠性、效率和通用性是车辆自动驾驶系统的基本评价标准。提出了一种基于Wasserstein生成对抗模仿学习-深度确定性策略梯度(WGAIL-DDPG (λ))的自动驾驶决策方法。在这里,确切的奖励函数是根据车辆的驾驶性能要求,即安全性、动力性和乘坐舒适性来设计的。通过提出的模仿学习策略提高了模型的训练效率,并设计了增益调节器以平滑从模仿阶段到强化阶段的过渡。实验结果表明,所提出的决策模型能够根据周围环境快速准确地生成动作。同时,基于专家经验和增益调节器的模仿学习策略可以有效地提高强化学习模型的训练效率。另外,加长试验也证明了其对不同驾驶条件的良好适应性。
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来源期刊
CiteScore
4.10
自引率
21.10%
发文量
0
审稿时长
4.2 months
期刊介绍: The International Journal of Applied Mathematics and Computer Science is a quarterly published in Poland since 1991 by the University of Zielona Góra in partnership with De Gruyter Poland (Sciendo) and Lubuskie Scientific Society, under the auspices of the Committee on Automatic Control and Robotics of the Polish Academy of Sciences. The journal strives to meet the demand for the presentation of interdisciplinary research in various fields related to control theory, applied mathematics, scientific computing and computer science. In particular, it publishes high quality original research results in the following areas: -modern control theory and practice- artificial intelligence methods and their applications- applied mathematics and mathematical optimisation techniques- mathematical methods in engineering, computer science, and biology.
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