Parallel Parking System Design with Fuzzy Logic Control

M. I. Nari, Zainul Mustain, S. Kautsar, Satryo B Utomo
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Abstract

The difficulty with parallel parking, especially when going backwards is when adjusting the steering wheel so that the car can park in the right direction. Based on these problems, this study aims to design an automatic parking system. To improve parking success, a trajectory tracking system with fuzzy logic control will be implemented on a 1/7.5 scale test car. The coordinates obtained from the bicycle kinematic model are compared with the design trajectory. The difference between the facing direction read by the gyroscope sensor and the trajectory design is processed using a fuzzy logic controller to direct the servo motor as the steering wheel. The test results obtained that the error value for the position and direction facing in the automatic parking test using fuzzy logic control is 1.25cm and 1.59°. Keywords: Trajectory tracking, gyroscope, fuzzy logic control, parallel parking
基于模糊逻辑控制的并行停车系统设计
平行停车的困难,尤其是在倒车时,是调整方向盘以使汽车能够朝正确的方向停车。基于这些问题,本研究旨在设计一个自动停车系统。为了提高停车成功率,将在1/7.5比例的试验车上实现一个具有模糊逻辑控制的轨迹跟踪系统。将从自行车运动学模型获得的坐标与设计轨迹进行比较。利用模糊逻辑控制器将伺服电机作为方向盘,处理陀螺仪传感器读取的面向方向与轨迹设计之间的差异。测试结果表明,在采用模糊逻辑控制的自动泊车测试中,面向位置和方向的误差值分别为1.25cm和1.59°。关键词:轨迹跟踪、陀螺仪、模糊逻辑控制、平行泊车
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