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Author

Goeleven, D. (Daniel)

Title Complementarity and Variational Inequalities in Electronics / Daniel Goeleven.

Publication Info.	Oxford : Academic Press, [2017]
	Š2017

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Available to Pittsburg State University patrons only.

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Location	Call No.	OPAC Message	Status
Axe Elsevier ScienceDirect Ebook	Electronic Book	---	Available

Description	1 online resource : illustrations
	text txt rdacontent
	computer c rdamedia
	online resource cr rdacarrier
Bibliography	Includes bibliographical references and index.
Note	Online resource; title from PDF title page (EBSCO, viewed June 5, 2017).
Contents	Front Cover; Complementarity and Variational Inequalities in Electronics; Copyright; Contents; List of Figures; About the Author; Acknowledgment; Introduction; 1 The Complementarity Problem; 1.1 The Complementarity Relation; 1.2 The Complementarity Relation in Electronics; 1.3 The Complementarity Problem; 1.4 The Complementarity Problem in Electronics; 2 The Convex Subdifferential Relation; 2.1 The Convex Subdifferential Relation; 2.2 The Normal Cone; 2.3 The Convex Subdifferential Relation in Electronics; 2.3.1 Ideal Diode Model; 2.3.2 Practical Diode Model; 2.3.3 Complete Diode Model
	2.3.4 Zener Diode Models2.3.5 Empirical Diode Model; 2.3.6 Varistor Model; 2.3.7 Transistor Models; 3 The Variational Inequality Problem; 3.1 The Variational Inequality; 3.2 The Variational Inequality Model in Electronics; 3.3 A General Clipping Circuit; 3.4 A Recti er-Stabilizer Circuit; 4 A Variational Inequality Theory; 4.1 Recession Tools; 4.2 Special Classes of Matrices M and Functions F; 4.2.1 Routh-Hurwitz Matrix; 4.2.2 Positive De nite Matrix; 4.2.3 Positive Semide nite Matrix; 4.2.4 Strictly Copositive Matrix; 4.2.5 Copositive Matrix; 4.2.6 P-Matrix; 4.2.7 P0-Matrix
	4.2.8 Positive Stable Matrix4.2.9 Z-Matrix; 4.2.10 M-Matrix; 4.2.11 Positive Semistable Matrix; 4.2.12 Weakly Positive De nite Matrix; 4.2.13 Weakly Positive Semide nite Matrix; 4.2.14 Proper Convex Functions; 4.2.15 Class of (M,F) ∈PDn; 4.2.16 Class of (M,F) ∈PD0n; 4.2.17 Class of (M,F) ∈Pn; 4.2.18 Class of (M,F) ∈P0n; 4.2.19 Class of (M,F) ∈PSn; 4.2.20 Class of (M,F) ∈PS0n; 4.2.21 Class of (M,F) ∈DSn; 4.2.22 Class of (M,F) ∈DS0n; 4.2.23 Class of (M,F) ∈Qn; 4.2.24 Class of (M,F) ∈Q0n; 4.3 A Necessary Condition of Solvability; 4.4 A Spectral Condition of Solvability
	4.5 A Boundedness Condition4.6 Positivity and Solvability Conditions; 4.7 Nonnegativity and Solvability Conditions; 4.8 Existence and Uniqueness Results; 4.9 Semicoercivity and Solvability Conditions; 4.10 Copositivity and Solvability Conditions; 4.11 Diagonal Stability and Solvability Conditions; 4.12 General Results in the Nonlinear Case; 4.13 A General Framework in Electronics; 4.14 Four-Diode Bridge Full-Wave Recti er; 4.14.1 A Double-Diode Clipper; 4.14.2 Clipping Circuit/Ideal Diode and Nonlinear Resistor; 4.14.3 A Sampling Gate; 4.15 A Recti er-Stabilizer Circuit
	4.16 A Common Emitter Ampli er Circuit4.17 Operational Ampli er; 5 The Nonregular Dynamical System; 5.1 Kalman-Yakubovich-Popov Lemma; 5.1.1 A Nonregular Circuit; 5.2 Existence and Uniqueness Theorem; 5.3 Lyapunov Stability of a Stationary Solution; 5.3.1 A Nonregular Circuit (Continuation); 5.4 Invariance Theory; 5.5 A Nonregular Circuit with Ideal Diodes; Bibliography; Index; Back Cover
Summary	Complementarity and Variational Inequalities in Electronics evaluates the main mathematical models relevant to the study of electrical network problems involving devices. The book focuses on complementarity problems, variational inequalities and non-regular dynamical systems which are well-known for their applications in mechanics and economics, but rarely target electrical applications. The book uses these tools to review the qualitative properties of devices, including slicers, amplitude selectors, sampling gates, operational amplifiers, and four-diode bridge full-wave rectifiers. Users will find demonstrations on how to compute optimized output signal relevant to potentially superior applications. In addition, the book describes how to determine the stationary points of dynamical circuits and to determine the corresponding Lyapunov stability and attractivity properties, topics of major importance for further dynamical analysis and control. Hemivariational inequalities are also covered in some depth relevant to application in thyristor devices.
Subject	Variational inequalities (Mathematics)
	Mechanics, Analytic.
	Inégalités variationnelles.
	Mécanique analytique.
	MATHEMATICS -- Calculus.
	MATHEMATICS -- Mathematical Analysis.
	Mechanics, Analytic
	Variational inequalities (Mathematics)
ISBN	0128133902 (electronic bk.)
	9780128133903 (electronic bk.)
	9780128133897
	0128133899
	9780128133897
Standard No.	AU@ 000061154651
	AU@ 000066135787
	CHNEW 001014289
	AU@ 000068474137