Decomposition of Descriptor Control Systems

We establish the conditions to decompose a complex descriptor control system into simpler subsystems. The system state and input are described by equations not solved with respect to the derivative of the state. We consider two types of decompositions: sequential and parallel ones. The decomposition...

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Veröffentlicht in:	Cybernetics and systems analysis 2020-11, Vol.56 (6), p.924-933
Hauptverfasser:	Vlasenko, L. A., Rutkas, A. G., Semenets, V. V., Chikrii, A. A.
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Sprache:	eng
Schlagworte:	Artificial Intelligence Control Control systems Mathematics Mathematics and Statistics Processor Architectures Software Engineering/Programming and Operating Systems Systems Theory
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container_title	Cybernetics and systems analysis
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creator	Vlasenko, L. A. Rutkas, A. G. Semenets, V. V. Chikrii, A. A.
description	We establish the conditions to decompose a complex descriptor control system into simpler subsystems. The system state and input are described by equations not solved with respect to the derivative of the state. We consider two types of decompositions: sequential and parallel ones. The decomposition conditions are formulated in terms of the existence of invariant pairs of subspaces for operator pencils consisting of system coefficients. The results are illustrated by the example of a descriptor system that describes transient states in a radio-engineering filter. We perform the cascade–parallel decomposition of forth-order filter into the simplest first-order filters, each containing one inertial element.
doi_str_mv	10.1007/s10559-020-00312-y
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subjects	Artificial Intelligence Control Control systems Mathematics Mathematics and Statistics Processor Architectures Software Engineering/Programming and Operating Systems Systems Theory
title	Decomposition of Descriptor Control Systems
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