Multiplexed order-reducing control of linear discrete-time systems

Hanz Richter; Anil Singaraju

doi:10.1109/acc.2006.1657626

Multiplexed order-reducing control of linear discrete-time systems

Hanz Richter
, Anil Singaraju

Mechanical Engineering

Cleveland State University

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

Abstract

In this work we consider linear discrete-time systems for which groups of control inputs are updated sequentially and cyclically instead of simultaneously, in what is called a multiplexed implementation. Such update scheme may arise, for instance, when hardware or computational constraints make impossible the simultaneous update of all actuators. A control law is proposed here for asymptotic stabilization of the resulting periodic system by the introduction of a set of subspaces to which the system state is driven, resembling sliding mode techniques. The applicability of the method includes systems which are not stabilizable from the update groups of actuators if taken individually. Simulations with a marginally stable system demonstrate the method. © 2006 IEEE.

Original language	English
Title of host publication	Proceedings of the American Control Conference
Place of Publication	usa
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	5661-5665
Number of pages	5
Volume	2006
ISBN (Print)	1424402107
DOIs	https://doi.org/10.1109/acc.2006.1657626
State	Published - Jan 1 2006
Event	2006 American Control Conference - Minneapolis, MN, United States Duration: Jun 14 2006 → Jun 16 2006

Conference

Conference	2006 American Control Conference
Country/Territory	United States
City	Minneapolis, MN
Period	06/14/06 → 06/16/06

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10.1109/acc.2006.1657626

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abstract = "In this work we consider linear discrete-time systems for which groups of control inputs are updated sequentially and cyclically instead of simultaneously, in what is called a multiplexed implementation. Such update scheme may arise, for instance, when hardware or computational constraints make impossible the simultaneous update of all actuators. A control law is proposed here for asymptotic stabilization of the resulting periodic system by the introduction of a set of subspaces to which the system state is driven, resembling sliding mode techniques. The applicability of the method includes systems which are not stabilizable from the update groups of actuators if taken individually. Simulations with a marginally stable system demonstrate the method. {\textcopyright} 2006 IEEE.",

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N2 - In this work we consider linear discrete-time systems for which groups of control inputs are updated sequentially and cyclically instead of simultaneously, in what is called a multiplexed implementation. Such update scheme may arise, for instance, when hardware or computational constraints make impossible the simultaneous update of all actuators. A control law is proposed here for asymptotic stabilization of the resulting periodic system by the introduction of a set of subspaces to which the system state is driven, resembling sliding mode techniques. The applicability of the method includes systems which are not stabilizable from the update groups of actuators if taken individually. Simulations with a marginally stable system demonstrate the method. © 2006 IEEE.

AB - In this work we consider linear discrete-time systems for which groups of control inputs are updated sequentially and cyclically instead of simultaneously, in what is called a multiplexed implementation. Such update scheme may arise, for instance, when hardware or computational constraints make impossible the simultaneous update of all actuators. A control law is proposed here for asymptotic stabilization of the resulting periodic system by the introduction of a set of subspaces to which the system state is driven, resembling sliding mode techniques. The applicability of the method includes systems which are not stabilizable from the update groups of actuators if taken individually. Simulations with a marginally stable system demonstrate the method. © 2006 IEEE.

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BT - Proceedings of the American Control Conference

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CY - usa

T2 - 2006 American Control Conference

Y2 - 14 June 2006 through 16 June 2006

ER -

Multiplexed order-reducing control of linear discrete-time systems

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