基于SIRMs动态连接模糊推理模型的串联型双倒立摆系统镇定控制

Jianqiang Yi , Naoyoshi Yubazaki , Kaoru Hirota
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引用次数: 40

摘要

基于单输入规则模块动态连接模糊推理模型,提出了一种新的串联型双倒立摆系统稳定模糊控制器。控制器处理6个输入项。每个输入项都有一个SIRM和一个动态重要度(DID)。SIRM和DID的设置使得当上摆相对角度较大时,上摆的角度控制优先于下摆的角度控制和小车的位置控制。通过使用sims和did,可以根据控制情况自动调整控制优先级顺序。仿真结果表明,在较宽的初始角度范围内,该控制器能在10.0 s左右稳定不同参数值的串联式双倒立摆系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stabilization control of series-type double inverted pendulum systems using the SIRMs dynamically connected fuzzy inference model

A new fuzzy controller for stabilizing series-type double inverted pendulum systems is proposed based on the SIRMs (Single Input Rule Modules) dynamically connected fuzzy inference model. The controller deals with six input items. Each input item is provided with a SIRM and a dynamic importance degree (DID). The SIRM and the DID are set up such that the angular control of the upper pendulum takes the highest priority order over the angular control of the lower pendulum and the position control of the cart when the relative angle of the upper pendulum is big. By using the SIRMs and the DIDs, the control priority orders are automatically adjusted according to control situations. Simulation results show that the controller stabilizes series-type double inverted pendulum systems of different parameter values in about 10.0 s for a wide range of the initial angles.

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