Resilient and robust finite-time H∞ control for uncertain discrete-time jump nonlinear systems
Date
2017
Authors
Zhang, Y.
Shi, Y.
Shi, P.
Editors
Advisors
Journal Title
Journal ISSN
Volume Title
Type:
Journal article
Citation
Applied Mathematical Modelling, 2017; 49:612-629
Statement of Responsibility
Yingqi Zhang, Yan Shi, Peng Shi
Conference Name
Abstract
This paper studies the robust and resilient finite-time H<inf>∞</inf> control problem for uncertain discrete-time nonlinear systems with Markovian jump parameters. With the help of linear matrix inequalities and stochastic analysis techniques, the criteria concerning stochastic finite-time boundedness and stochastic H<inf>∞</inf> finite-time boundedness are initially established for the nonlinear stochastic model. We then turn to stochastic finite-time controller analysis and design to guarantee that the stochastic model is stochastically H<inf>∞</inf> finite-time bounded by employing matrix decomposition method. Applying resilient control schemes, the resilient and robust finite-time controllers are further designed to ensure stochastic H<inf>∞</inf> finite-time boundedness of the derived stochastic nonlinear systems. Moreover, the results concerning stochastic finite-time stability and stochastic finite-time boundedness are addressed. All derived criteria are expressed in terms of linear matrix inequalities, which can be solved by utilizing the available convex optimal method. Finally, the validity of obtained methods is illustrated by numerical examples.
School/Discipline
Dissertation Note
Provenance
Description
Available online 1 March 2017
Access Status
Rights
© 2017 Elsevier Inc. All rights reserved.