A Sliding Mode Control Using Brain Limbic System Control Strategy for a Robotic Manipulator

Hak Yi

doi:10.5772/61817

A Sliding Mode Control Using Brain Limbic System Control Strategy for a Robotic Manipulator

Hak Yi

School of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

This paper presents a robust bio-inspired sliding mode control approach, designed to achieve a favourable tracking performance in a class of robotic manipulators with uncertainties. To this end, brain emotional learning-based intelligent control (BELBIC) is applied, to adaptively adjust the control input law in the sliding mode control. The combined form provides an adjustment of the control input law that effectively alleviates the chattering effects of the sliding mode control. Specifically, the online parameters computed from the parameter uncertainties and external disturbances help to improve the system robustness. The simulation results demonstrate that the proposed bio-inspired control strategy is very successful at tracking the given trajectories with less chattering as compared to both the conventional and fuzzy sling mode control schemes.

Original language	English
Article number	158
Journal	International Journal of Advanced Robotic Systems
Volume	12
Issue number	11
DOIs	https://doi.org/10.5772/61817
State	Published - 6 Nov 2015

Keywords

Biologically Inspired Control
Learning and Adaptive Systems
Robot Manipulator
Sliding Mode Control
Uncertainties

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10.5772/61817

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title = "A Sliding Mode Control Using Brain Limbic System Control Strategy for a Robotic Manipulator",

abstract = "This paper presents a robust bio-inspired sliding mode control approach, designed to achieve a favourable tracking performance in a class of robotic manipulators with uncertainties. To this end, brain emotional learning-based intelligent control (BELBIC) is applied, to adaptively adjust the control input law in the sliding mode control. The combined form provides an adjustment of the control input law that effectively alleviates the chattering effects of the sliding mode control. Specifically, the online parameters computed from the parameter uncertainties and external disturbances help to improve the system robustness. The simulation results demonstrate that the proposed bio-inspired control strategy is very successful at tracking the given trajectories with less chattering as compared to both the conventional and fuzzy sling mode control schemes.",

keywords = "Biologically Inspired Control, Learning and Adaptive Systems, Robot Manipulator, Sliding Mode Control, Uncertainties",

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AB - This paper presents a robust bio-inspired sliding mode control approach, designed to achieve a favourable tracking performance in a class of robotic manipulators with uncertainties. To this end, brain emotional learning-based intelligent control (BELBIC) is applied, to adaptively adjust the control input law in the sliding mode control. The combined form provides an adjustment of the control input law that effectively alleviates the chattering effects of the sliding mode control. Specifically, the online parameters computed from the parameter uncertainties and external disturbances help to improve the system robustness. The simulation results demonstrate that the proposed bio-inspired control strategy is very successful at tracking the given trajectories with less chattering as compared to both the conventional and fuzzy sling mode control schemes.

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A Sliding Mode Control Using Brain Limbic System Control Strategy for a Robotic Manipulator

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