Optimization methods in electromagnetic radiation电磁辐射中的最优化方法

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主题图书: 电磁辐射
定价: ¥ 1055
作者: Thomas S. Angell 著
出版: 未知
书号: 9780387204505
语言: 英文原版
日期: 2004-01-01
版次: 1 页数: 331
开本: 16开 查看: 0
Optimization methods in electromagnetic radiation电磁辐射中的最优化方法

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图书介绍

This book considers problems of optimization arising in the design of electromagnetic radiators and receivers. The authors develop a systematic general theory that can be applied to a wide class of structures. The theory is illustrated with familiar, simple examples and indications of how the results can be applied to more complicated structures. The final chapter introduces techniques from multicriteria optimization in antenna design. The material is intended for a dual audience of mathematicians and mathematically-sophisticated engineers. References to both the mathematics and engineering literature help guide the reader through the necessary mathematical background.

图书目录

Preface
1 Arrays of Point and Line Sources, and Optimization
1.1 The Problem of Antenna Optimization
1.2 Arrays of Point Sources
1.2.1 The Linear Array
1.2.2 Circular Arrays
1.3 Maximization of Directivity and Super-gain
1.3.1 Directivity and Other Measures of Performance
1.3.2 Maximization of Directivity
1.4 Dolph-Tschebysheff Arrays
1.4.1 Tschebysheff Polynomials
1.4.2 The Dolph Problem
1.5 Line Sources
1.5.1 The Linear Line Source
1.5.2 The Circular Line Source
1.5.3 Numerical Quadrature
1.6 Conclusion
2 Discussion of Maxwell's Equations
2.1 Introduction
2.2 Geometry of the Radiating Structure
2.3 Maxwell's. Equations in Integral Form
2.4 The Constitutive Relations
2.5 Maxwell's Equations in Differential Form
2.6 Energy Flow and the Poynting Vector
2.7 Thee Harmonic Fields
2.8 Vector Potentials
2.9 Radiation Condition, Far Field Pattern
2.10 Radiating Dipoles and Line Sources
2.11 Boundary Conditions on Interfaces
2.12 Hertz Potentials and Classes of Solutions
2.13 Radiation Problems in Two Dimensions
3 Optimization Theory for Antennas
3.1 Introductory Remarks
3.2 The General Optimization Problem
3.2.1 Existence and Uniqueness
3.2.2 The Modeling of Constraints
3.2.3 Extreme Points and Optimal Solutions
3.2.4 The Lagrange Multiplier Rule
3.2.5 Methods of Finite Dimensional Approximation
3.3 Far Field Patterns and Far Field Operators
3.4 Measures of Antenna Performance
4 The Synthesis Problem
4.1 Introductory Remarks
4.2 Remarks on Ill-Posed Problems
4.3 Regularization by Constraints
4.4 The Tikhonov Regularization
4.5 The Synthesis Problem for the Finite Linear Line Source
4.5.1 Basic Equations
4.5.2 The Nystrom Method
4.5.3 Numerical Solution of the Normal Equations
4.5.4 Applications of the Regularization Techniques
5 Boundary Value Problems for the Two-Dimensional Helmholtz Equation
5.1 Introduction and Formulation of the Problems
5.2 Rellich's Lemma and Uniqueness
5.3 Existence by the Boundary Integral Equation Method
5.4 L2-Boundary Data
5.5 Numerical Methods
5.5.1 Nyström's Method for Periodic Weakly Singular Kernels
5.5.2 Complete Families of Solutions
5.5.3 Finite Element Methods for Absorbing Boundary Conditions
5.5.4 Hybrid Methods
6 Boundary Value Problems for Maxwell's Equations
6.1 Introduction and Formulation of the Problem
6.2 Uniqueness and Existence
6.3 L2-Boundary Data
7 Some Particular Optimization Problems
7.1 General Assumptions
7.2 Maximization of Power
7.2.1 Input Power Constraints
7.2.2 Pointwise Constraints on Inputs
7.2.3 Numerical Simulations
7.3 The Null-Placement Problem
7.3.1 Maximization of Power with Prescribed Nulls
7.3.2 A Particular Example - The Line Source
7.3.3 Pointwise Constraints
7.3.4 Minimization of Pattern Perturbation
7.4 The Optimization of Signal-to-Noise Ratio and Directivity
7.4.1 The Existence of Optimal Solutions
7.4.2 Necessary Conditions
7.4.3 The Finite Dimensional Problems
8 Conflicting Objectives: The Vector Optimization Problem
8.1 Introduction
8.2 General Multi-criteria Optimization Problems
8.2.1 Minimal Elements and Pareto Points
8.2.2 The Lagrange Multiplier Rule
8.2.3 Scalarization
8.3 The Multi-criteria Dolph Problem for Arrays
8.3.1 The Weak Dolph Problem
8.3.2 Two Multi-criteria Versions
8.4 Null Placement Problems and Super-gain
8.4.1 Minimal Pattern Deviation
8.4.2 Power and Super-gain
8.5 The Signal-to-noise Ratio Problem
8.5.1 Formulation of the Problem and Existence of Pareto Points
8.5.2 The Lagrange Multiplier Rule
8.5.3 An Example
A Appendix
A.1 Introduction
A.2 Basic Notions and Examples
A.3 The Lebesgue Integral and Function Spaces
A.3.1 The Lebesgue Integral
A.3.2 Sobolev Spaces
A.4 Orthonormal Systems
A.5 Linear Bounded and Compact Operators
A.6 The Hahn-Banach Theorem
A.7 The Fréchet Derivative
A.8 Weak Convergence
A.9 Partial Orderings
References
Index

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