Stability of stationary sets in control systems with discontinuous nonlinearities /

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This book presents a development of the frequency-domain approach to the stability study of stationary sets of systems with discontinuous nonlinearities. The treatment is based on the theory of differential inclusions and the second Lyapunov method. Various versions of the Kalman-Yakubovich lemma on...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: I͡Akubovich, V. A. (Vladimir Andreevich)
Otros Autores: Leonov, G. A. (Gennadiĭ Alekseevich), Gelig, Arkadiĭ Khaĭmovich
Formato: Electrónico eBook
Idioma:Inglés
Publicado: River Edge, NJ : World Scientific, ©2004.
Colección:Series on stability, vibration, and control of systems. v. 14.
Temas:
Control theory.
Nonlinear control theory.
Set theory.
System analysis.
Differential equations, Nonlinear.
Engineering mathematics.
Engineering systems.
Systems Analysis
Théorie de la commande.
Commande non linéaire.
Théorie des ensembles.
Analyse de systèmes.
Équations différentielles non linéaires.
Mathématiques de l'ingénieur.
Systèmes d'ingénierie.
systems analysis.
TECHNOLOGY & ENGINEERING > Automation.
TECHNOLOGY & ENGINEERING > Robotics.
Control theory
Differential equations, Nonlinear
Engineering mathematics
Engineering systems
Nonlinear control theory
Set theory
System analysis
Controleleer.
Verzamelingen (wiskunde)
Systeemtheorie.
Systeemanalyse.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Foundations of theory of differential equations with discontinuous right-hand sides. 1.1. Notion of solution to differential equation with discontinuous right-hand side. 1.2. Systems of differential equations with multiple-valued right-hand sides (differential inclusions). 1.3. Dichotomy and stability
  • 2. Auxiliary algebraic statements on solutions of matrix inequalities of a special type. 2.1. Algebraic problems that occur when finding conditions for the existence of Lyapunov functions from some multiparameter functional class. Circle criterion. Popov criterion. 2.2. Relevant algebraic statements
  • 3. Dichotomy and stability of nonlinear systems with multiple equilibria. 3.1. Systems with piecewise single-valued nonlinearities. 3.2. Systems with monotone piecewise single-valued nonlinearities. 3.3. Systems with gradient nonlinearities
  • 4. Stability of equilibria sets of pendulum-like systems. 4.1. Formulation of the stability problem for equilibrium sets of pendulum-like systems. 4.2. The method of periodic Lyapunov functions. 4.3. An analogue of the circle criterion for pendulum-like systems. 4.4. The method of non-local reduction. 4.5. Necessary conditions for gradient-like behavior of pendulum-like systems. 4.6. Stability of the dynamical systems describing the synchronous machines
  • 5. Appendix. Proofs of the theorems of chapter 2. 5.1. Proofs of theorems on controllability, observability, irreducibility, and of lemmas 2.4 and 2.7. 5.2. Proof of theorem 2.13 (nonsingular Case). Theorem on solutions of Lur'e equation (algebraic Riccati equation). 5.3. Proof of theorem 2.13 (completion) and lemma 5.1. 5.4. Proofs of theorems 2.12 and 2.14 (singular Case). 5.5. Proofs of theorems 2.17-2.19 on losslessness of S-procedure.

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