基于复杂随机停车环境的停车模型优化设计

IF 2.6 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC World Electric Vehicle Journal Pub Date : 2023-12-12 DOI:10.3390/wevj14120344

Xunchen Liu, Siqi Zhu, Yuan Fang, Yutong Wang, Lijuan Fu, Wenjing Lei, Zijian Zhou

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引用次数: 0

摘要

本文介绍了对自动驾驶车辆泊车挑战的全面研究，重点是运动学和倒车泊车模型。研究开发了各种场景的模型，包括转弯、倒车、垂直和平行停车，同时使用最小转弯半径解决方案。A* 算法的集成增强了轨迹优化和避障能力。NTBPT 和 B-样条理论等创新概念改进了计算优化。这项研究为理解自主泊车的动态和约束条件奠定了基础。所提出的模型提高了效率和安全性，降低了算法复杂度，改善了轨迹优化。这项研究为应对自动泊车挑战提供了有价值的见解和方法，并推动了自动泊车系统的进步。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Optimization Design of Parking Models Based on Complex and Random Parking Environments

This paper presents a comprehensive study on autonomous vehicle parking challenges, focusing on kinematic and reverse parking models. The research develops models for various scenarios, including turning, reverse, vertical, and parallel parking while using the minimum turning radius solution. The integration of the A* algorithm enhances trajectory optimization and obstacle avoidance. Innovative concepts like NTBPT and B-spline theory improve computational optimization. This study provides a foundation for understanding the dynamics and constraints of autonomous parking. The proposed model enhances efficiency and safety, reducing algorithm complexity and improving trajectory optimization. This research offers valuable insights and methodologies for addressing autonomous vehicle parking challenges and advocates for advancements in automated parking systems.

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