Robust Approach for Global Stabilization of a Class of Underactuated Mechanical Systems in Presence of Uncertainties

Ibrahim Shah, W. Abbasi, Musaed A. Alhussein, Imran Khan, F. Rehman, M. S. Anwar, Khursheed Aurangzeb
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引用次数: 1

Abstract

Underactuated mechanical systems offer complex dynamic behavior and poses control challenges, especially in the presence of uncertainties in the system. To cope with such systems, control mechanisms are required, which needs to be robust. In this research, an algorithm based on sliding mode control (SMC) is presented. The algorithm design offer a methodical way to handle underactuation, while the robustness properties of SMC suppresses the effect of norm bounded uncertainties and external disturbances. To proceed with the design, an underactuated system is converted into cascaded subsystems, a linear one and reduced-order nonlinear subsystem. The proposed SMC design is backed by rigorous mathematical presentation and based on Lyapunov theory, so that the global stabilization of overall system is ensured. Numerical simulations are performed, on the laboratory test bench underactuated systems (Inertial Wheel, Furuta Pendulum, TORA, and an Overhead Crane), to validate the efficacy of the proposed design. In addition, a novel sliding surface is presented for Inertial Wheel and Furuta Pendulum to achieve swingup control and global stabilization subjected to uncertainties.
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一类存在不确定性欠驱动机械系统全局镇定的鲁棒方法
欠驱动机械系统具有复杂的动态行为,给控制带来了挑战,特别是在系统中存在不确定性的情况下。为了应对这样的系统,需要有强大的控制机制。本文提出了一种基于滑模控制(SMC)的控制算法。该算法设计为处理欠驱动提供了一种方法,同时SMC的鲁棒性抑制了范数有界不确定性和外部干扰的影响。为了进行设计,将欠驱动系统转换为级联子系统、线性子系统和降阶非线性子系统。该控制系统的设计基于Lyapunov理论,具有严格的数学表达,保证了系统的全局稳定。在实验室的欠驱动系统(惯性轮、古田摆、TORA和桥式起重机)上进行了数值模拟,以验证所提出设计的有效性。此外,针对惯性轮和古田摆,提出了一种新的滑动面,以实现不确定条件下的上摆控制和全局镇定。
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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