Control global del péndulo con rueda de reacción mediante regulación de energía y linealización extendida de las variables de estado

TecnoLogicas Pub Date : 2014-01-15 DOI:10.22430/22565337.199

O. D. Montoya-Giraldo, Luis F. Grisales-Noreña, Víctor D. Correa-Ramírez, Didier Giraldo-Buitrago

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引用次数: 5

Abstract

This paper presents the design and simulation of a global controller for the Reaction Wheel Pendulum system using energy regulation and extended linearization methods for the state feedback. The proposed energy regulation is based on the gradual reduction of the energy of the system to reach the unstable equilibrium point. The signal input for this task is obtained from the Lyapunov stability theory. The extended state feedback controller design is used to get a smooth nonlinear function that extends the region of operation to a bigger range, in contrast with the static linear state feedback obtained through the method of approximate linearization around an operating point. The general designed controller operates with a switching between the two control signals depending upon the region of operation; perturbations are applied in the control signal and the (simulated) measured variables to verify the robustness and efficiency of the controller. Finally, simulations and tests using the model of the reaction wheel pendulum system, allow to observe the versatility and functionality of the proposed controller in the entire operation region of the pendulum.

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通过能量调节和扩展状态变量线性化的反作反应轮摆的整体控制

本文采用能量调节和扩展线性化方法对反作用轮摆系统的状态反馈进行了全局控制器的设计和仿真。所提出的能量调节是基于系统能量的逐渐减少以达到不稳定平衡点。本任务的信号输入由李亚普诺夫稳定性理论获得。与围绕工作点近似线性化方法获得的静态线性状态反馈相比，采用扩展状态反馈控制器设计得到将工作区域扩展到更大范围的光滑非线性函数。一般设计的控制器根据操作区域在两个控制信号之间进行切换;在控制信号和(模拟的)测量变量中施加扰动以验证控制器的鲁棒性和效率。最后，利用反作用轮摆系统的模型进行仿真和测试，可以观察到所提出的控制器在摆的整个操作区域的通用性和功能性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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TecnoLogicas

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28 weeks