05581nam 2200565Ia 450 991043787360332120200520144314.03-642-34928-510.1007/978-3-642-34928-7(OCoLC)834089848(MiFhGG)GVRL6VYW(CKB)2550000001045657(MiAaPQ)EBC1206068(EXLCZ)99255000000104565720130312d2013 uy 0engurun|---uuuuatxtccrSurveys in differential-algebraic equations I /[edited by] Achim Ilchmann, Timo Reis1st ed.New York Springer20131 online resource (vii, 231 pages) illustrationsDifferential-algebraic equations forumDescription based upon print version of record.3-642-34927-7 Includes bibliographical references and index.Surveys in Differential-Algebraic Equations I; Preface; Contents; Controllability of Linear Differential-Algebraic Systems-A Survey; 1 Introduction; 2 Controllability Concepts, p. 5; 3 Solutions, Relations and Normal Forms, p. 15; 4 Algebraic Criteria, p. 30; 5 Feedback, Stability and Autonomous System p. 36; 6 Invariant Subspaces, p. 46; 7 Kalman Decomposition, p. 50; 2 Controllability Concepts; 3 Solutions, Relations and Normal Forms; 3.1 System and Feedback Equivalence; 3.2 A Normal Form Under System Equivalence; 3.3 A Normal Form under Feedback Equivalence; 4 Criteria of Hautus Type5 Feedback, Stability and Autonomous Systems5.1 Stabilizability, Autonomy and Stability; 5.2 Stabilization by Feedback; 5.3 Control in the Behavioral Sense; 6 Invariant Subspaces; 7 Kalman Decomposition; References; Robust Stability of Differential-Algebraic Equations; 1 Introduction; 2 Robust Stability of Linear Time-Invariant DAEs; 2.1 Stability Radii for Linear Time-Invariant DAEs; 2.2 Dependence of Stability Radii on the Data; 3 Robust Stability of Linear Time-Varying DAEs; 3.1 Stability Radii for Linear Time-Varying DAEs; 3.2 Dependence of Stability Radii on the Data; 4 DiscussionReferencesDAEs in Circuit Modelling: A Survey; 1 Introduction; 2 Model Families for Classical Circuits; 2.1 Graph-Theoretic Results; 2.2 Some Preliminaries from Circuit Theory; Kirchhoff Laws; Component Relations; Topologically Degenerate Configurations; Example; 2.3 Nodal Analysis. MNA; 2.4 Branch-Oriented Models, Tree-Based Formulations and Hybrid Analysis; Tree-Based Models; Hybrid Analysis; 2.5 Multiport Model and Hessenberg Form; 2.6 Loop Analysis; 2.7 DAE Form of the Models; 3 The Index of DAE Circuit Models; 3.1 On the Index Notion; The Tractability Index; Other Index NotionsSolvability3.2 Nodal Models; 3.2.1 Passive Problems; 3.2.2 Low Index Configurations in the Non-passive Context; 3.3 Branch-Oriented and Hybrid Models; 3.3.1 Branch-Oriented Models; 3.3.2 Hybrid Models of Passive Circuits; 3.3.3 Hybrid Models of Non-passive Circuits; 3.4 Example; MNA; Hybrid Analysis; 4 Memristors and Mem-Devices; 4.1 Memristors; 4.2 Memcapacitors, Meminductors and Higher Order Devices; 4.3 DAE Models of Circuits with Mem-Devices; 5 Dynamical Aspects; 5.1 The State Formulation Problem; 5.2 Singularities and Impasse Phenomena; 5.3 Qualitative Properties in the Semistate Context6 Other Topics in DAE-Based Circuit ModellingModel Reduction; Coupled Problems; Numerics in Circuit Simulation via DAE Models; Other Topics; 7 Concluding Remarks; References; Solution Concepts for Linear DAEs: A Survey; 1 Introduction; 2 Classical Solutions; 2.1 The Kronecker and Weierstraß Canonical Forms; 2.2 Solution Formulas Based on the Wong Sequences: General Case; 2.3 Existence and Uniqueness of Solutions with Respect to In- and Outputs; 2.4 Solution Formulas Based on the Wong Sequences: Regular Case; 2.5 The Drazin Inverse Solution Formula; 2.6 Time-Varying DAEs3 Inconsistent Initial Values and Distributional SolutionsThe need for a rigorous mathematical theory for Differential-Algebraic Equations (DAEs) has its roots in the widespread applications of controlled dynamical systems, especially in mechanical and electrical engineering. Due to the strong relation to (ordinary) differential equations, the literature for DAEs mainly started out from introductory textbooks. As such, the present monograph is new in the sense that it comprises survey articles on various fields of DAEs, providing reviews, presentations of the current state of research and new concepts in -  Controllability for linear DAEs -  Port-Hamiltonian differential-algebraic systems -  Robustness of DAEs -  Solution concepts for DAEs -  DAEs in circuit modeling. The results in the individual chapters are presented in an accessible style, making this book suitable not only for active researchers but also for graduate students (with a good knowledge of the basic principles of DAEs) for self-study.Differential-algebraic equations forum.Differential equationsDifferential-algebraic equationsDifferential equations.Differential-algebraic equations.512.56Ilchmann Achim768197Reis Timo768198MiAaPQMiAaPQMiAaPQBOOK9910437873603321Surveys in differential-algebraic equations I4200567UNINA