基于WHALE优化算法的下肢康复机器人最优滑模控制器设计

Q3 Economics, Econometrics and Finance

Applied Computer Science Pub Date : 2021-09-30 DOI:10.35784/acs-2021-20

Noor Sabah, E. Hameed, Muayed S. Al-Huseiny

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引用次数: 2

摘要

滑模控制器（SMC）被认为是机器人系统中最常见的稳定器和控制器之一，因为其设计用于控制非线性系统的鲁棒非线性方案。SMC对外部干扰和系统参数变化不敏感。尽管SMC是一个自适应和基于模型的控制器，但它的一些值需要精确确定。本文提出了一种基于鲸鱼优化算法（WOA）的双连杆下肢康复机器人最优滑模控制器（OSMC）。该控制器由两部分组成，即等效部分和监督控制器部分。基于李雅普诺夫稳定性分析了受控康复机器人的稳定性保证。WO算法用于确定所建议的SMC的最佳参数。两个测试轨迹（线性步进信号和非线性正弦信号）的仿真结果证明了所提出的OSMC的有效性，具有快速响应、非常小的超调和最小的稳态误差。

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OPTIMAL SLIDING MODE CONTROLLER DESIGN BASED ON WHALE OPTIMIZATION ALGORITHM FOR LOWER LIMB REHABILITATION ROBOT

The Sliding Mode Controllers (SMCs) are considered among the most common stabilizer and controllers used with robotic systems due to their robust nonlinear scheme designed to control nonlinear systems. SMCs are insensitive to external disturbance and system parameters variations. Although the SMC is an adaptive and model-based controller, some of its values need to be determined precisely. In this paper, an Optimal Sliding Mode Controller (OSMC) is suggested based on Whale Optimization Algorithm (WOA) to control a two-link lower limb rehabilitation robot. This controller has two parts, the equivalent part, and the supervisory controller part. The stability assurance of the controlled rehabilitation robot is analyzed based on Lyapunov stability. The WO algorithm is used to determine optimal parameters for the suggested SMC. Simulation results of two tested trajectories (linear step signal and nonlinear sine signal) demonstrate the effectiveness of the suggested OSMC with fast response, very small overshoot, and minimum steady-state error.

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来源期刊

Applied Computer Science Engineering-Industrial and Manufacturing Engineering

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

8 weeks