Stability Theory of Switched Dynamical Systems
Sun, Zhendong.
creator
author.
Ge, Shuzhi Sam.
author.
SpringerLink (Online service)
text
xxk
London
Springer London
2011
monographic
eng
access
XX, 256 p. online resource.
Stability issues are fundamental in the study of the many complex nonlinear dynamic behaviours within switched systems. Professors Sun and Ge present a thorough investigation of stability effects on three broad classes of switching mechanism: • arbitrary switching where stability represents robustness to unpredictable and undesirable perturbation; • constrained switching, including random (within a known stochastic distribution), dwell-time (with a known minimum duration for each subsystem) and autonomously-generated (with a pre-assigned mechanism) switching; and • designed switching in which a measurable and freely-assigned switching mechanism contributes to stability by acting as a control input. For each of these classes Stability Theory for Switched Dynamical Systems propounds: • detailed stability analysis and/or design; • related robustness and performance issues; • connections to other well-known control problems; and • many motivating and illustrative examples. Academic researchers and engineers interested in systems and control will find this book of great value in dealing with all forms of switching and it will be a useful source of complementary reading for graduate students of nonlinear systems theory.
Introduction -- Arbitrary Switching -- Constrained Switching -- Designed Switching -- Implications and Applications -- Conclusion -- Appendix.
by Zhendong Sun, Shuzhi Sam Ge.
Engineering
Matrix theory
Systems theory
Distribution (Probability theory)
Vibration
Engineering
Control
Systems Theory, Control
Vibration, Dynamical Systems, Control
Probability Theory and Stochastic Processes
Linear and Multilinear Algebras, Matrix Theory
TJ212-225
629.8
Springer eBooks
Communications and Control Engineering
9780857292568
http://dx.doi.org/10.1007/978-0-85729-256-8
http://dx.doi.org/10.1007/978-0-85729-256-8
110106
20141014113435.0
978-0-85729-256-8