Control energy comparison between 1st and 2nd order sliding mode approach with application to a SCARA robot

2016 13th International Multi-Conference on Systems, Signals & Devices (SSD) Pub Date : 2016-03-21 DOI:10.1109/SSD.2016.7473679

F. Bouaziz, Y. Bouteraa, N. Derbel

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引用次数: 5

Abstract

In this paper, a second order sliding mode control (SMC) design has been developed in order to realize an efficient motion control task. The objective is to realize a robust trajectory tracking behavior while achieving a significant minimization of the control energy amount, inasmuch as the energy saving has been constantly considered as a key condition, especially in the industrial sector. In a first step, a first order sliding mode controller has been developed and implemented on a robot manipulator system. Hence, aiming to improve the proposed control strategy and to reduce the energy amount consumption, a second control law approach has been developed based on the second order sliding mode design. Finally, in order to achieve required objectives in the dynamic system control, a control energy comparison between the 1st and the 2nd order sliding mode approach has been accomplished to prove the effectiveness of the higher order SMC in eliminating disturbing oscillating control signals and preserving the control energy saving. Simulation results performed on a 3 - DOF SCARA robot demonstrate improved performances with the proposed second order SMC design.

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一阶与二阶滑模控制能量比较及其在SCARA机器人上的应用

为了实现高效的运动控制任务，本文提出了一种二阶滑模控制(SMC)设计。目标是实现鲁棒的轨迹跟踪行为，同时实现控制能量的显著最小化，因为节能一直被认为是一个关键条件，特别是在工业部门。首先，开发了一阶滑模控制器，并在机器人操纵系统上实现。因此，为了改进所提出的控制策略并降低能耗，本文提出了一种基于二阶滑模设计的二阶控制律方法。最后，为了达到动态系统控制所要求的目标，对一阶滑模方法和二阶滑模方法进行了控制能量比较，证明了高阶SMC在消除干扰振荡控制信号和保持控制能量节约方面的有效性。对三自由度SCARA机器人的仿真结果表明，二阶SMC设计提高了机器人的性能。

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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来源期刊

2016 13th International Multi-Conference on Systems, Signals & Devices (SSD)

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