Stability Robustness of LQ and LQG Active Suspensions

A. G. Ulsoy; D. Hrovat; T. Tseng

Source: Journal of Dynamic Systems, Measurement, and Control:;1994:;volume( 116 ):;issue: 001::page 123

Author:

A. G. Ulsoy

D. Hrovat

T. Tseng

DOI: 10.1115/1.2900666

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: A two-degree-of-freedom quarter-car model is used as the basis for linear quadratic (LQ) and linear quadratic Gaussian (LQG) controller design for an active suspension. The LQ controller results in the best rms performance trade-offs (as defined by the performance index) between ride, handling and packaging requirements. In practice, however, all suspension states are not directly measured, and a Kalman filter can be introduced for state estimation to yield an LQG controller. This paper (i) quantifies the rms performance losses for LQG control as compared to LQ control, and (ii) compares the LQ and LQG active suspension designs from the point of view of stability robustness. The robustness of the LQ active suspensions is not necessarily good, and depends strongly on the design of a backup passive suspension in parallel with the active one. The robustness properties of the LQG active suspension controller are also investigated for several distinct measurement sets.

keyword(s): Stability , Robustness , Control equipment , Design , Kalman filters , State estimation AND Packaging ,

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Stability Robustness of LQ and LQG Active Suspensions

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Journal of Dynamic Systems, Measurement, and Control

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contributor author	A. G. Ulsoy
contributor author	D. Hrovat
contributor author	T. Tseng
date accessioned	2017-05-08T23:43:52Z
date available	2017-05-08T23:43:52Z
date copyright	March, 1994
date issued	1994
identifier issn	0022-0434
identifier other	JDSMAA-26202#123_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/113399
description abstract	A two-degree-of-freedom quarter-car model is used as the basis for linear quadratic (LQ) and linear quadratic Gaussian (LQG) controller design for an active suspension. The LQ controller results in the best rms performance trade-offs (as defined by the performance index) between ride, handling and packaging requirements. In practice, however, all suspension states are not directly measured, and a Kalman filter can be introduced for state estimation to yield an LQG controller. This paper (i) quantifies the rms performance losses for LQG control as compared to LQ control, and (ii) compares the LQ and LQG active suspension designs from the point of view of stability robustness. The robustness of the LQ active suspensions is not necessarily good, and depends strongly on the design of a backup passive suspension in parallel with the active one. The robustness properties of the LQG active suspension controller are also investigated for several distinct measurement sets.
publisher	The American Society of Mechanical Engineers (ASME)
title	Stability Robustness of LQ and LQG Active Suspensions
type	Journal Paper
journal volume	116
journal issue	1
journal title	Journal of Dynamic Systems, Measurement, and Control
identifier doi	10.1115/1.2900666
journal fristpage	123
journal lastpage	131
identifier eissn	1528-9028
keywords	Stability
keywords	Robustness
keywords	Control equipment
keywords	Design
keywords	Kalman filters
keywords	State estimation AND Packaging
tree	Journal of Dynamic Systems, Measurement, and Control:;1994:;volume( 116 ):;issue: 001
contenttype	Fulltext

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