Active Control of Nonlinear Suspension System Using Modified Adaptive Supertwisting Controller

Jagat J. Rath; Kalyana C. Veluvolu; Michael Defoort

doi:10.1155/2015/408623

Active Control of Nonlinear Suspension System Using Modified Adaptive Supertwisting Controller

Jagat J. Rath, Kalyana C. Veluvolu, Michael Defoort

School of Electronics Engineering

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

9 Scopus citations

Abstract

The suspension system is faced with nonlinearities from the spring, damper, and external excitations from the road surface. The objective of any control action provided to the suspension is to improve ride comfort while ensuring road holding for the vehicle. In this work, a robust higher order sliding mode algorithm combining the merits of the modified supertwisting algorithm and the adaptive supertwisting algorithm has been proposed for the nonlinear active suspension system. The proposed controller is robust to linearly growing perturbations and bounded uncertainties. Simulations have been performed for different classes of road excitations and the results are presented.

Original language	English
Article number	408623
Journal	Discrete Dynamics in Nature and Society
Volume	2015
DOIs	https://doi.org/10.1155/2015/408623
State	Published - 2015

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title = "Active Control of Nonlinear Suspension System Using Modified Adaptive Supertwisting Controller",

abstract = "The suspension system is faced with nonlinearities from the spring, damper, and external excitations from the road surface. The objective of any control action provided to the suspension is to improve ride comfort while ensuring road holding for the vehicle. In this work, a robust higher order sliding mode algorithm combining the merits of the modified supertwisting algorithm and the adaptive supertwisting algorithm has been proposed for the nonlinear active suspension system. The proposed controller is robust to linearly growing perturbations and bounded uncertainties. Simulations have been performed for different classes of road excitations and the results are presented.",

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AU - Defoort, Michael

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AB - The suspension system is faced with nonlinearities from the spring, damper, and external excitations from the road surface. The objective of any control action provided to the suspension is to improve ride comfort while ensuring road holding for the vehicle. In this work, a robust higher order sliding mode algorithm combining the merits of the modified supertwisting algorithm and the adaptive supertwisting algorithm has been proposed for the nonlinear active suspension system. The proposed controller is robust to linearly growing perturbations and bounded uncertainties. Simulations have been performed for different classes of road excitations and the results are presented.

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Active Control of Nonlinear Suspension System Using Modified Adaptive Supertwisting Controller

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