Title:	Generalized tellegen principle used for energy method for systems modeling
Authors:	Štork, Milan Mayer, Daniel Hrušák, Josef
Citation:	2016 International Conference on Applied Electronics: Pilsen, 6th – 7th September 2016, Czech Republic, p.257-260.
Issue Date:	2016
Publisher:	Západočeská univerzita v Plzni
Document type:	konferenční příspěvek conferenceObject
URI:	http://hdl.handle.net/11025/35293
ISBN:	978–80–261–0601–2 (Print) 978–80–261–0602–9 (Online)
ISSN:	1803–7232 (Print) 1805–9597 (Online)
Keywords:	obvody RLC;letecká elektronika;úspora energie;chaos;telekomunikace;elektrotechnika
Keywords in different language:	RLC circuits;aerospace electronics;energy conservation;chaos;telecommunications;electrical engineering
Abstract in different language:	This paper deals with dissipativity, stability, chaotic behavior and related structural properties of a relatively broad class of finite dimensional strictly causal systems. The class of nonlinear systems under consideration is described in the state-space representation form. System properties are investigated by a new approach based on a new abstract state energy concept, and on a proper generalization of the well known Tellegen's theorem as a form of the energy conservation principle. The resulting energy function is induced by the output signal power and determines both, the structure of a proper system representation as well as the corresponding system state space topology. The state minimality, as well as parameter minimality requirements plays a crucial role in the proposed method. Several examples are solved, and results of simulation are shown for illustration of fundamental ideas and basic attributes of the proposed method.
Rights:	© Západočeská univerzita v Plzni
Appears in Collections:	Články / Articles (KTE) Články / Articles (KAE) Applied Electronics 2016 Applied Electronics 2016

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