State feedback integral control by velocity-based multiple model networks

Ruiyao Gao; Aidan O'Dwyer

doi:10.21427/t590-xj43

State feedback integral control by velocity-based multiple model networks

Ruiyao Gao, Aidan O'Dwyer

Technological University Dublin

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Velocity-based (VB) multiple model networks have the advantage of allowing the capture of the dynamics of non-linear systems when compared to conventional multiple model networks, for they build a direct relationship between the non-linear system and the VB linearisation. To have the best use of modelled dynamic information for the controller design, this paper proposes a novel controller design approach, which associates an integral action with state feedback in local controller design. It overcomes the difficulty in the implementation of the velocity-based approach, which normally involves deducing the differential signal. It holds continuity with linear control theory in the analysis of the overall system and brings the potential to automatically design a controller with guaranteed performance and stability.

Original language	English
Title of host publication	Proceedings of the 2004 American Control Conference
Pages	2039-2044
Volume	6
DOIs	https://doi.org/10.21427/t590-xj43
Publication status	Published - 2004
Event	American Control Conference - Boston, United States Duration: 1 Jan 2004 → …

Conference

Conference	American Control Conference
Country/Territory	United States
City	Boston
Period	1/01/04 → …

Keywords

Velocity-based multiple model networks
non-linear systems
controller design
integral action
state feedback
linear control theory
performance
stability

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10.21427/t590-xj43Licence: CC BY-NC-SA

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title = "State feedback integral control by velocity-based multiple model networks",

abstract = "Velocity-based (VB) multiple model networks have the advantage of allowing the capture of the dynamics of non-linear systems when compared to conventional multiple model networks, for they build a direct relationship between the non-linear system and the VB linearisation. To have the best use of modelled dynamic information for the controller design, this paper proposes a novel controller design approach, which associates an integral action with state feedback in local controller design. It overcomes the difficulty in the implementation of the velocity-based approach, which normally involves deducing the differential signal. It holds continuity with linear control theory in the analysis of the overall system and brings the potential to automatically design a controller with guaranteed performance and stability.",

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AU - O'Dwyer, Aidan

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AB - Velocity-based (VB) multiple model networks have the advantage of allowing the capture of the dynamics of non-linear systems when compared to conventional multiple model networks, for they build a direct relationship between the non-linear system and the VB linearisation. To have the best use of modelled dynamic information for the controller design, this paper proposes a novel controller design approach, which associates an integral action with state feedback in local controller design. It overcomes the difficulty in the implementation of the velocity-based approach, which normally involves deducing the differential signal. It holds continuity with linear control theory in the analysis of the overall system and brings the potential to automatically design a controller with guaranteed performance and stability.

KW - Velocity-based multiple model networks

KW - non-linear systems

KW - controller design

KW - integral action

KW - state feedback

KW - linear control theory

KW - performance

KW - stability

UR - https://ieeexplore.ieee.org/xpl/conhome/9503/proceeding

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DO - 10.21427/t590-xj43

M3 - Conference contribution

SN - 0-7803-8335-4

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SP - 2039

EP - 2044

BT - Proceedings of the 2004 American Control Conference

T2 - American Control Conference

Y2 - 1 January 2004

ER -

State feedback integral control by velocity-based multiple model networks

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