@inproceedings{20bae61631e14a498d4a80eae5556522,
title = "Hierarchical Trajectory Optimization Method Based on Dynamic Potential Fields in Complex Scenarios",
abstract = "This paper investigates the trajectory optimization problem for autonomous ground vehicles (AGV) in complex scenarios, considering both dynamic and static obstacles. To describe the problem, a novel lightweight potential function is proposed and an optimal control problem (OCP) is formulated. Due to the high complexity of the problem, conventional numerical trajectory planning algorithms cannot directly solve it. This paper proposes a hierarchical trajectory optimization approach based on dynamic potential fields, consisting of the path planning layer and the trajectory optimization layer. In the first layer, an improved artificial potential field method is employed to solve the initial path. In the second layer, the optimal control problem is transformed into a nonlinear optimization problem (NLP), with the initial path discretized as the initial guess for the numerical solution. The effectiveness and efficiency of the proposed algorithm are verified through numerical simulations.",
keywords = "Autonomous ground vehicle, Dynamic obstacle avoidance, Optimal control, Trajectory planning",
author = "Yi Hao and Zhida Xing and Senchun Chai and Lingguo Cui and Runqi Chai",
note = "Publisher Copyright: {\textcopyright} 2024 Technical Committee on Control Theory, Chinese Association of Automation.; 43rd Chinese Control Conference, CCC 2024 ; Conference date: 28-07-2024 Through 31-07-2024",
year = "2024",
doi = "10.23919/CCC63176.2024.10661702",
language = "English",
series = "Chinese Control Conference, CCC",
publisher = "IEEE Computer Society",
pages = "1639--1644",
editor = "Jing Na and Jian Sun",
booktitle = "Proceedings of the 43rd Chinese Control Conference, CCC 2024",
address = "United States",
}