控制理论(社会学)
倒立摆
模糊逻辑
控制器(灌溉)
控制工程
全状态反馈
模糊控制系统
灵活性(工程)
工程类
计算机科学
控制(管理)
非线性系统
数学
物理
统计
量子力学
人工智能
农学
生物
作者
Pouriya Pourgholam,Hamid Moeenfard
标识
DOI:10.1177/10775463211042967
摘要
Accurate modeling and efficient control of inverted pendulums have always been a challenge for researchers. So, the current research aims to achieve the following objectives: (I) proposing a comprehensive dynamic model for the inverted pendulums which accounts for the flexibility of the pendulum bar and (II) suggesting an appropriate supervisory fuzzy-pole placement control strategy for stabilizing the pendulum system. Using a Lagrangian formulation, the equations of motion are derived and linearized. Then, a state feedback controller with a reduced-order observer is designed to stabilize the system. Closed-loop simulations reveal that at least six modes shall be considered in the dynamic equations. To improve the quality of the transient response, a novel fuzzy system is developed for real-time assignment of the controller poles. Simulation results demonstrate that the control quality is significantly improved by adding a supervisory fuzzy system to the control loop. The developed approach for dynamic modeling of the system, and the idea of multi-level fuzzy-pole placement control architecture developed in this paper, may be successfully applied to improve the response specifications in other dynamic systems.
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