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VHDL-AMS based genetic optimization of a fuzzy logic controller for automotive active suspension systems

机译：基于VHDL-AMS的汽车主动悬架系统模糊逻辑控制器的遗传优化

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This paper presents a new type of fuzzy logic controller (FLC) membership functions for automotive active suspension systems. The shapes of the membership functions are irregular and optimized using a genetic algorithm (GA). In this optimization technique, VHDL-AMS is used not only for the modeling and simulation of the fuzzy logic controller and its underlying active suspension system but also for the implementation of a parallel GA. Simulation results show that the proposed FLC has superior performance to that of existing FLCs that use triangular or trapezoidal membership functions.

机译：本文提出了一种用于汽车主动悬架系统的新型模糊逻辑控制器（FLC）隶属函数。隶属函数的形状是不规则的，并使用遗传算法（GA）进行了优化。在这种优化技术中，VHDL-AMS不仅用于模糊逻辑控制器及其底层主动悬挂系统的建模和仿真，而且还用于并行GA的实现。仿真结果表明，所提出的FLC具有优于使用三角或梯形隶属函数的现有FLC的性能。

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《》|2005年|P.124-127|共4页
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Wang; L.; Kazmierski; T.J.;
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中图分类工业技术;
关键词
automotive electronics; control system analysis computing; fuzzy control; genetic algorithms; hardware description languages; suspensions (mechanical components); VHDL-AMS; automotive active suspension system; fuzzy logic controller; genetic algorithm; hardware de;

机译：汽车电子;控制系统分析计算;模糊控制;遗传算法;硬件描述语言;悬架（机械部件）; VHDL-AMS;汽车主动悬架系统;模糊逻辑控制器;遗传算法;硬件设计;

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专利

1. USING FUZZY LOGIC CONTROLLER AND EVOLUTIONARY GENETIC ALGORITHM FOR AUTOMOTIVE ACTIVE SUSPENSION SYSTEM [J] . J.-S. CHIOU, M.-T. LIU International Journal of Automotive Technology . 2009,第6期

机译：主动悬架系统中模糊逻辑控制器与进化遗传算法的结合
2. Using fuzzy logic controller and evolutionary genetic algorithm for automotive active suspension system [J] . J. -S. Chiou, M. -T. Liu International Journal of Automotive Technology . 2009,第6期

机译：基于模糊逻辑控制器和进化遗传算法的汽车主动悬架系统
3. Vibration control of an active vehicle suspension systems using optimized model-free fuzzy logic controller based on time delay estimation [J] . Mustafa Ghazally I. Y., Wang H. P., Tian Yang Advances in Engineering Software . 2019,第JANa期

机译：基于时延估计的优化无模型模糊逻辑控制器的主动车辆悬架系统振动控制
4. VHDL-AMS based genetic optimization of a fuzzy logic controller for automotive active suspension systems [C] . L. Wang, T. J. Kazmierski IEEE International Behavioral Modeling and Simulation Workshop . 2005

机译：基于VHDL-AMS的汽车主动悬架系统模糊逻辑控制器的遗传优化
5. Sliding-mode neural-network-inference fuzzy logic controller of nonlinear active suspension system. [D] . Joo, Dae Sung. 1999

机译：非线性主动悬架系统的滑模神经网络推理模糊逻辑控制器。
6. Performance Analysis of a Semiactive Suspension System with Particle Swarm Optimization and Fuzzy Logic Control [O] . Abroon Jamal Qazi, Clarence W. de Silva, Afzal Khan, -1

机译：具有粒子群优化和模糊逻辑控制的半主动悬架系统性能分析。
7. VHDL-AMS based genetic optimization of a fuzzy logic controller for automotive active suspension systems [O] . Wang Leran, Kazmierski Tom 2005

机译：基于VHDL-ams的汽车主动悬架系统模糊逻辑控制器的遗传优化

VHDL-AMS based genetic optimization of a fuzzy logic controller for automotive active suspension systems

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