Mixed-sensitivity H∞ control and μ analysis of active automobile suspension

Hemanth Porumamilla; Atul G. Kelkar

doi:10.1115/IMECE2004-60339

Mixed-sensitivity H_∞ control and μ analysis of active automobile suspension

Hemanth Porumamilla
, Atul G. Kelkar

Watson Dean's Office

Binghamton University

Iowa State University

Research output: Contribution to journal › Conference article › peer-review

3 Scopus citations

Abstract

This study presents an H_∞-based robust control design for an active automobile suspension system and compares its performance with a previously designed robust LQG controller and a well tuned PI controller from contemporary literature. The robustness of the controller designs is assessed by performing μ analysis of the closed loop system. The H_∞ problem is formulated as a stacked nominal performance problem. The weighting functions on complementary sensitivity, sensitivity, and controller transfer functions are chosen to obtain desirable trade-off in performance and robustness. The main objective of the controller design is to provide ride comfort for passengers. The controller design presented in this paper is shown to provide robust stability as well as desirable robust performance which is an improvement over the previously designed robust LQG controller and a PI controller chosen from contemporary literature.

Original language	English
Article number	IMECE2004-60339
Pages (from-to)	151-158
Number of pages	8
Journal	American Society of Mechanical Engineers, Applied Mechanics Division, AMD
Volume	255
DOIs	https://doi.org/10.1115/IMECE2004-60339
State	Published - 2004
Event	2004 ASME International Mechanical Engineering Congress and Exposition, IMECE - Anaheim, CA, United States Duration: Nov 13 2004 → Nov 19 2004

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title = "Mixed-sensitivity H∞ control and μ analysis of active automobile suspension",

abstract = "This study presents an H∞-based robust control design for an active automobile suspension system and compares its performance with a previously designed robust LQG controller and a well tuned PI controller from contemporary literature. The robustness of the controller designs is assessed by performing μ analysis of the closed loop system. The H∞ problem is formulated as a stacked nominal performance problem. The weighting functions on complementary sensitivity, sensitivity, and controller transfer functions are chosen to obtain desirable trade-off in performance and robustness. The main objective of the controller design is to provide ride comfort for passengers. The controller design presented in this paper is shown to provide robust stability as well as desirable robust performance which is an improvement over the previously designed robust LQG controller and a PI controller chosen from contemporary literature.",

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T1 - Mixed-sensitivity H∞ control and μ analysis of active automobile suspension

AU - Porumamilla, Hemanth

AU - Kelkar, Atul G.

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N2 - This study presents an H∞-based robust control design for an active automobile suspension system and compares its performance with a previously designed robust LQG controller and a well tuned PI controller from contemporary literature. The robustness of the controller designs is assessed by performing μ analysis of the closed loop system. The H∞ problem is formulated as a stacked nominal performance problem. The weighting functions on complementary sensitivity, sensitivity, and controller transfer functions are chosen to obtain desirable trade-off in performance and robustness. The main objective of the controller design is to provide ride comfort for passengers. The controller design presented in this paper is shown to provide robust stability as well as desirable robust performance which is an improvement over the previously designed robust LQG controller and a PI controller chosen from contemporary literature.

AB - This study presents an H∞-based robust control design for an active automobile suspension system and compares its performance with a previously designed robust LQG controller and a well tuned PI controller from contemporary literature. The robustness of the controller designs is assessed by performing μ analysis of the closed loop system. The H∞ problem is formulated as a stacked nominal performance problem. The weighting functions on complementary sensitivity, sensitivity, and controller transfer functions are chosen to obtain desirable trade-off in performance and robustness. The main objective of the controller design is to provide ride comfort for passengers. The controller design presented in this paper is shown to provide robust stability as well as desirable robust performance which is an improvement over the previously designed robust LQG controller and a PI controller chosen from contemporary literature.

UR - https://www.scopus.com/pages/publications/19544393734

U2 - 10.1115/IMECE2004-60339

DO - 10.1115/IMECE2004-60339

M3 - Conference article

SN - 0160-8835

VL - 255

SP - 151

EP - 158

JO - American Society of Mechanical Engineers, Applied Mechanics Division, AMD

JF - American Society of Mechanical Engineers, Applied Mechanics Division, AMD

M1 - IMECE2004-60339

T2 - 2004 ASME International Mechanical Engineering Congress and Exposition, IMECE

Y2 - 13 November 2004 through 19 November 2004

ER -

Mixed-sensitivity H_∞ control and μ analysis of active automobile suspension

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