Description |
1 online resource |
Series |
Signals and communication technology ; volume 218 |
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Signals and communication technology ; v. 218.
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Contents |
Preface; Contents; 1 Mathematical Models of Hysteresis; 1.1 ... Introduction; 1.1.1 Definitions, Notations, and Terminology; 1.1.2 Classification of Hysteresis Models; 1.1.3 Parameter Identification Methods; 1.1.3.1 Identification Techniques Based on Evolutionary Algorithms; 1.1.3.2 Identification Techniques Based on Linear Least-Square Minimizations; 1.1.4 Inverse Modeling; 1.1.5 Numerical Implementation of Hysteretic Models; 1.1.6 The Rectangular Hysteresis Operator; 1.2 ... The Preisach Model; 1.2.1 Definition; 1.2.2 General Properties and the Representation Theorem |
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1.2.3 Examples of Preisach Analytical Distributions1.2.4 Computation of Hysteresis Curves in the Preisach Model; 1.2.5 Generalizations of the Preisach Model; 1.2.5.1 The Moving Preisach Model; 1.2.5.2 The Input-Dependent Preisach model; 1.2.5.3 Other Preisach-Type Models; 1.2.6 Relation Between the Preisach Model and Other Models of Hysteresis; 1.2.6.1 Relay Hysteresis Operator; 1.2.6.2 The Backlash (Play) Operator; 1.2.6.3 The Stop Operator; 1.3 ... Jiles-Atherton Model; 1.3.1 Definition; 1.3.2 General Properties of Hysteretic Curves; 1.3.3 Parameter Identification Methods |
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1.4 ... Energetic (Hauser) Model1.4.1 Definition; 1.4.2 General Properties of Hysteretic Curves; 1.4.3 Parameter Identification Methods; 1.4.3.1 Computation of {\varvec k}, {\varvec q}, and {\varvec N}_{{\varvec e}} ; 1.4.3.2 Computation of {\varvec h} and {\varvec g} in the Classical Energetic Model ({\varvec c}_{{\varvec r}} = 0); 1.4.3.3 Computation of {{\bf h }}, {{\bf g}}, and {{\bf c_{r}}} in the Complete Energetic Model; 1.5 ... Bouc-Wen Model; 1.5.1 Definition; 1.5.2 General Properties of Hysteretic Curves; 1.6 ... Coleman-Hodgdon Model; 1.6.1 Definition |
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1.6.1.1 The Direct Coleman-Hodgdon Model1.6.1.2 The Reverse Coleman-Hodgdon Model; 1.6.1.3 Conditions on the Choice of Material Functions; 1.6.2 General Properties of Hysteretic Curves; 1.6.3 Parameter Identification Methods; 1.6.3.1 Determination of Functions {{\bf f}} and {{\bf g}} and Parameter {{\varvec \alpha_{0}}} ; 1.6.3.2 Determination of Parameters {{\varvec \alpha_{0}}}, {{\bf D_{1}}}, {{\bf D_{2}}}, and {{\bf D_{3}}} ; 1.6.3.3 Determination of Parameters {{\varvec \mu_{s}}}, {{\varvec \alpha_{0}}}, {{\bf A_{1}}}, {{\bf A_{2}}}, {{\bf A_{3}}} \, and {{\bf A_{4}}} |
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1.7 ... Dynamic Models of Hysteresis1.7.1 Models Based on the Feedback Theory; 1.7.2 Models Based on the Relaxation Time Approximation; 1.8 ... Vector Models of Hysteresis; 1.8.1 Two-Dimensional Models of Hysteresis; 1.8.2 Three-Dimensional Models of Hysteresis; 1.9 ... Summary; References; 2 Noise and Stochastic Processes; 2.1 ... Noise; 2.1.1 Introduction; 2.1.2 Wiener Process; 2.1.3 ItĂ´ Stochastic Integral and Differential Equations; 2.1.4 White Noise; 2.1.5 Ornstein-Uhlenbeck Noise; 2.1.6 Brownian Motion in a Double Well-Potential; 2.1.7 Pink (1/f) Noise; 2.1.8 Other Classes of Colored Noise |
Summary |
Annotation Adopting a generalized approach to nonlinear systems with hysteresis driven by noisy inputs, this book proposes a unitary framework for analysing stochastic aspects of hysteresis, deploying a variety of models to portray the input noise - from white to pink |
Analysis |
engineering |
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beeldverwerking |
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image processing |
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spraak |
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speech |
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vibratie |
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vibration |
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Engineering (General) |
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Techniek (algemeen) |
Notes |
Print version record |
Subject |
Hysteresis.
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Hysteresis -- Mathematical models
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Electronic noise.
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SCIENCE -- Physics -- Magnetism.
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Ingénierie.
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Electronic noise
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Hysteresis
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Hysteresis -- Mathematical models
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Form |
Electronic book
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Author |
Andrei, Petru, author
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ISBN |
9781461413745 |
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1461413745 |
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