基于速度和转向角模糊信息的自动驾驶电动汽车路径跟踪仿真研究

2018 International Conference on Computational Approach in Smart Systems Design and Applications (ICASSDA) Pub Date : 2018-08-01 DOI:10.1109/ICASSDA.2018.8477593

H. Halin, Hasri Haris, Z. Razlan, W. Khairunizam, I. Zunaidi, H. Desa, K. Ikram, S. A. Bakar

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引用次数: 3

摘要

自动驾驶汽车的开发对环境产生了积极的影响，提高了乘客的安全性和道路效率。路径跟踪控制是自动驾驶电动汽车(AEV)发展的核心要素。路径跟踪是指自动驾驶汽车遵循预定路径的能力。路径跟踪技术利用方向盘角度来操纵自动驾驶汽车。这些实验往往会产生很多错误，要么是环境造成的，要么是设备本身造成的。所设计的模糊控制器的性能受到误差的影响。仿真研究为研究所设计控制器的性能提供了可靠的依据。在LabVIEW程序中进行了路径跟踪仿真。模拟使用了贝塞里研究所(IKM)的实际坐标。本文主要研究利用模糊控制器进行路径跟踪仿真。在仿真过程中记录路径跟踪误差距离。记录的路径跟踪误差平均值为1.59 m。仿真结果用于提高模糊控制器的性能。

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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Simulation Studies - Path Tracking of an Autonomous Electric Vehicle (AEV) by Using Fuzzy Information of Speed and Steering Angle

The development of an autonomous vehicle creates a positive impact to the environment, increase passengers safety, and road efficiency. Path tracking control is the core element in the development of an Autonomous Electric Vehicle (AEV). The path tracking is the ability of the AEV to follow the predetermined paths. Path tracking techniques utilizes the steering wheel angle in order to steer the autonomous vehicle. The experiments tend to produce a lot of error, either from the environment or from the devices itself. The performance of the designed Fuzzy controller affected by the errors. The simulation studies are more reliable in order to study the performance of the developed controller. The path tracking simulation was simulated in the LabVIEW program. The simulation uses the actual coordinate at the Institut Kemahiran Mara (IKM) Beseri. This paper focuses on path tracking simulation using fuzzy controller. The path tracking error distance was recorded along the simulation. The average for path tracking error recorded was 1.59 m. The simulation results used to enhance the performance of the Fuzzy controller in the future.

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2018 International Conference on Computational Approach in Smart Systems Design and Applications (ICASSDA)

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