@article{ref1,
title="Collaborative optimisation of lane change decision and trajectory based on double-layer deep reinforcement learning",
journal="International journal of vehicle design",
year="2023",
author="Shen, Yang and Peng, Jiankun and Kang, Cheng and Zhang, Siyu and Yi, Fengyan and Wan, Jinming and Wang, Xingmao",
volume="92",
number="2/3/4",
pages="336-356",
abstract="In this paper, lane change process of vehicle is divided into two stages: lane change decision and lane change movement, and put forward the double-layer deep reinforcement learning architecture, the use of upper structure deep Q network (DQN) exchange way to control decision, and send the lane changing information to the lower deep deterministic policy gradient (DDPG) of vehicle trajectory control, After the lane change process the collaborative optimisation of DQN was completed through the feedback of vehicle position information before and after lane change., the collaborative optimisation of DQN is completed. The results show that, the proposed two-layer deep reinforcement learning architecture can increase the average velocity of the agent vehicle by 2-5% and reduce the average lateral speed and lateral acceleration by 12.5% and 12.2% respectively in the lane-changing process. Compared with no collaborative optimisation, the optimal lane change timing of the effectively cooptimised two-layer architecture is 34.64%.<p /> <p>Language: en</p>",
language="en",
issn="0143-3369",
doi="10.1504/IJVD.2023.134751",
url="http://dx.doi.org/10.1504/IJVD.2023.134751"
}