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Modeling and analysis of energy distribution networks using switched differential systems

Modeling and analysis of energy distribution networks using switched differential systems
Modeling and analysis of energy distribution networks using switched differential systems
It is a pleasure to dedicate this contribution to Prof. Arjan van der Schaft on the occasion of his 60th birthday. We study the dynamics of energy distribution networks consisting of switching power converters and multiple (dis-)connectable modules. We use parsimonious models that deal effectively with the variant complexity of the network and the inherent switching phenomena induced by power converters. We also present the solution to instability problems caused by devices with negative impedance characteristics such as constant power loads. Elements of the behavioral system theory such as linear differential behaviors and quadratic differential forms are crucial in our analysis.
978-3-319-20987-6
0170-8643
461
199-219
Springer
Mayo Maldonado, J.C.
a922f104-e896-44b7-84d1-ba0f1fe035ad
Rapisarda, P.
79efc3b0-a7c6-4ca7-a7f8-de5770a4281b
Camlibel, M. Kanat
Julius, A. Agung
Pasumarthy, Ramkrishna
Scherpen, Jacquelien M.A.
Mayo Maldonado, J.C.
a922f104-e896-44b7-84d1-ba0f1fe035ad
Rapisarda, P.
79efc3b0-a7c6-4ca7-a7f8-de5770a4281b
Camlibel, M. Kanat
Julius, A. Agung
Pasumarthy, Ramkrishna
Scherpen, Jacquelien M.A.

Mayo Maldonado, J.C. and Rapisarda, P. (2015) Modeling and analysis of energy distribution networks using switched differential systems. In, Camlibel, M. Kanat, Julius, A. Agung, Pasumarthy, Ramkrishna and Scherpen, Jacquelien M.A. (eds.) Mathematical Control Theory I: Nonlinear and Hybrid Control Systems. (Lecture Notes in Control and Information Sciences, 461) Berlin, DE. Springer, pp. 199-219. (doi:10.1007/978-3-319-20988-3_11).

Record type: Book Section

Abstract

It is a pleasure to dedicate this contribution to Prof. Arjan van der Schaft on the occasion of his 60th birthday. We study the dynamics of energy distribution networks consisting of switching power converters and multiple (dis-)connectable modules. We use parsimonious models that deal effectively with the variant complexity of the network and the inherent switching phenomena induced by power converters. We also present the solution to instability problems caused by devices with negative impedance characteristics such as constant power loads. Elements of the behavioral system theory such as linear differential behaviors and quadratic differential forms are crucial in our analysis.

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Published date: 14 July 2015
Organisations: Vision, Learning and Control
Learn more about Vision, Learning and Control research

Identifiers

Local EPrints ID: 379528
URI: http://eprints.soton.ac.uk/id/eprint/379528
DOI: doi:10.1007/978-3-319-20988-3_11
ISBN: 978-3-319-20987-6
ISSN: 0170-8643
PURE UUID: 3b972c8f-9ea9-482a-84d2-72e30fb924cf

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Date deposited: 04 Aug 2015 14:03
Last modified: 14 Mar 2024 20:42

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Contributors

Author: J.C. Mayo Maldonado
Author: P. Rapisarda
Editor: M. Kanat Camlibel
Editor: A. Agung Julius
Editor: Ramkrishna Pasumarthy
Editor: Jacquelien M.A. Scherpen

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