Design of an Optimal Fuzzy Controller for Antilock Braking Systems

Mirzaei A.; Moallem M.; Dehkordi B. M.; Fahimi B.

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Design of an Optimal Fuzzy Controller for Antilock Braking Systems

机译：防抱死制动系统最优模糊控制器的设计

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Antilock braking systems (ABSs) have been developed to improve vehicle control during sudden braking, especially on slippery road surfaces. The objective of such control is to increase wheel traction force in the desired direction while maintaining adequate vehicle stability and steerability and reducing the vehicle stopping distance. In this paper, an optimized fuzzy controller is proposed for ABSs. The objective function is defined to maintain the wheel slip to a desired level so that maximum wheel traction force and maximum vehicle deceleration are obtained. All the components of a fuzzy system are optimized using genetic algorithms. The error-based global optimization approach is used for fast convergence near the optimum point. Simulation results show fast convergence and good performance of the controller for different road conditions

机译：已开发出防抱死制动系统（ABS），以改善突然制动期间尤其是在湿滑路面上的车辆控制。这种控制的目的是在期望的方向上增加车轮牵引力，同时保持足够的车辆稳定性和可操纵性并减小车辆停止距离。本文提出了一种针对ABS的优化模糊控制器。定义目标函数以将车轮打滑保持在所需水平，以便获得最大的车轮牵引力和最大的车辆减速度。模糊系统的所有组件都使用遗传算法进行了优化。基于错误的全局优化方法用于在最佳点附近快速收敛。仿真结果表明，该控制器在不同路况下均具有快速收敛性和良好的性能。

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《IEEE Transactions on Vehicular Technology》 |2006年第2006期|p.1725-1730|共6页
作者
Mirzaei A.; Moallem M.; Dehkordi B. M.; Fahimi B.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类一般性问题;无线通信;
关键词
braking; fuzzy control; genetic algorithms; road vehicles; steering systems; traffic control; velocity control; wheels; ABS; antilock braking systems; error-based global optimization approach; genetic algorithm; optimal fuzzy controller; road condition; vehicle contro;

机译：制动;模糊控制;遗传算法;道路车辆;转向系统;交通控制;速度控制;车轮;ABS;防抱死制动系统;基于错误的全局优化方法;遗传算法;最优模糊控制器;道路状况;车辆控制;

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专利

1. Design of an Optimal Fuzzy Controller for Antilock Braking Systems [J] . Mirzaei A., Moallem M., Dehkordi B.M., IEEE Transactions on Vehicular Technology . 2006,第6期

机译：防抱死制动系统最优模糊控制器的设计
2. Intelligent Hybrid Control System Design for Antilock Braking Systems Using Self-Organizing Function-Link Fuzzy Cerebellar Model Articulation Controller [J] . Lin C.-M., Li H.-Y. IEEE Transactions on Fuzzy Systems . 2013,第6期

机译：自组织功能链接模糊小脑模型关节控制器的防抱死制动系统智能混合控制系统设计
3. Intelligent fuzzy controller design for antilock braking systems [J] . Tien-Loc Le Journal of intelligent & fuzzy systems: Applications in Engineering and Technology . 2019,第4期

机译：防袋制动系统智能模糊控制器设计
4. Design of an optimal fuzzy controller for antilock braking systems [C] . Mirzaei, A., Moallem, . 2005

机译：防抱死制动系统的最优模糊控制器设计
5. Fuzzy logic antilock braking system for trailers equipped with electric brakes. [D] . Nelson, David Eric. 1997

机译：用于配备电子制动器的拖车的模糊逻辑防抱死制动系统。
6. Antilock braking system effectiveness in prevention of road traffic crashes in Iran [O] . Davoud Khorasani-Zavareh, Saeed Shoar, Soheil Saadat 2013

机译：防抱死制动系统在防止伊朗道路交通事故中的有效性
7. Independent Model Generalized Predictive Controller Design for Antilock Braking System [O] . M. Hasan Khansari, Khomeini Shahr Branch, Mahdi Yaghoobi, 2015

机译：防抱制动系统的独立模型广义预测控制器设计
8. NHTSA Light Vehicle Antilock Brake Systems Research Program Task 5, Part 1:Examination of Drivers' Collision Avoidance Behavior Using Conventional and Antilock Brake Systems on the Iowa Driving Simulator [R] . McGehee, D. V., Mazzae, E. N., Baldwin, G. H. S., 2000

机译：美国国家公路交通安全管理局轻型车辆防抱死制动系统研究计划任务5，第1部分：在爱荷华州驾驶模拟器上使用常规和防抱死制动系统检查驾驶员的避碰行为

Design of an Optimal Fuzzy Controller for Antilock Braking Systems

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