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Towards Push-of-a-Button Stability Verification for Discrete-Time Hybrid Systems
Changsha, Hunan, China December 12-December 14
DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/PRDC.2005.5911th Pacific Rim International Sympos ...
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Henning Burchardt, Jens Oehlerking, Oliver Theel, "Towards Push-of-a-Button Stability Verification for Discrete-Time Hybrid Systems," Pacific Rim International Symposium on Dependable Computing, IEEE, pp. 374-378, 11th Pacific Rim International Symposium on Dependable Computing (PRDC'05), 2005.
 
 
BibTex
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@article{ 10.1109/PRDC.2005.59,
author = {Henning Burchardt and Jens Oehlerking and Oliver Theel},
title = {Towards Push-of-a-Button Stability Verification for Discrete-Time Hybrid Systems},
journal ={Pacific Rim International Symposium on Dependable Computing, IEEE},
volume = {0},
year = {2005},
isbn = {0-7695-2492-3},
pages = {374-378},
doi = {http://doi.ieeecomputersociety.org/10.1109/PRDC.2005.59},
publisher = {IEEE Computer Society},
address = {Los Alamitos, CA, USA},
}
 
 
RefWorks Procite/RefMan/Endnote
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TY - CONF
JO - Pacific Rim International Symposium on Dependable Computing, IEEE
TI - Towards Push-of-a-Button Stability Verification for Discrete-Time Hybrid Systems
SN - 0-7695-2492-3
SP374
EP378
A1 - Henning Burchardt,
A1 - Jens Oehlerking,
A1 - Oliver Theel,
PY - 2005
KW - Discrete-Time Hybrid Systems
KW - Automatic Verification
KW - Stability
KW - Lyapunov Theory
KW - LMIs
VL - 0
JA - Pacific Rim International Symposium on Dependable Computing, IEEE
ER -
 
Henning Burchardt, University of Oldenburg, Germany
Jens Oehlerking, University of Oldenburg, Germany
Oliver Theel, University of Oldenburg, Germany
Stability is an important system property. In this paper we examine the steps toward fully automated stability verification for a class of discrete-time hybrid systems. These systems are hybrid in the sense that they can have several modes with possibly different discrete-time dynamics. For systems with affine discrete-time dynamics in each mode, we employ a method that is based on Lyapunov theory and reduces the verification task to convex optimization. We detail the steps that are needed for automatic stability verification using this method: 1) choice of a state space partitioning 2) calculation of possible transitions between the different regions of the partitioning and 3) conversion of the problem into linear matix inequalities, which can be solved through convex optimization. For steps 2) and 3) we present solutions that are suitable for full automation.
Index Terms:
Discrete-Time Hybrid Systems, Automatic Verification,Stability, Lyapunov Theory, LMIs
Citation:
Henning Burchardt, Jens Oehlerking, Oliver Theel, "Towards Push-of-a-Button Stability Verification for Discrete-Time Hybrid Systems," prdc, pp.374-378, 11th Pacific Rim International Symposium on Dependable Computing (PRDC'05), 2005
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