逆散射問題的數值方法 (英文版) 李景治劉宏宇 9787030762481 【台灣高等教育出版社】

Name: 逆散射問題的數值方法 (英文版) 李景治 劉宏宇 9787030762481 【台灣高等教育出版社】
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書名：逆散射問題的數值方法 (英文版)
ISBN：9787030762481
出版社：科學
著編譯者：李景治劉宏宇
叢書名：Series in Information and Computational Science 95
頁數：384
所在地：中國大陸 *此為代購商品
書號：1586450
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內容簡介
《逆散射問題的數值方法》致力於聲學、電磁學和彈性動力學中出現的反散射問題的數值研究。在物理問題中，發送入射波來確定一個未知或不可訪問的對象——散射體，以產生散射波場。然後，通過收集/測量被編碼成稱作遠場模式的散射數據，人們將推斷散射體的幾何/介質性質。這種逆散射問題出現在各種具有實際重要性的工業應用中，包括雷達和聲納、遙感、地球物理勘探、醫療成像和無損檢測。我們主要關注異常散射體的幾何/拓撲信息的恢復和識別，包括其位置和形狀，*立於其介質性質，通過相關的遠場測量。事實上，在許多波成像的實際場景中，人們主要對反常散射體的可視化感興趣，如果需要，將根據成像效果進一步探索介質性質。我們將把聲散射、電磁散射和彈性散射納入我們的研究，並主要在時間諧波範圍內工作。

Contents
1 Introduction 1
References 3
2 Direct Acoustic Scattering Problems 5
2 1 Acoustic Scattering From Obstacles 6
2 2 Acoustic Scattering From Mediums 7
2 3 Acoustic Scattering From Complex Scatterers 8
2 4 Green’s Formula and Linear Potential Theory for Scattering
Problems 12
2 5 Numerical Methods for Acoustic Scattering Problems 18
2 5 1 Nystxom Method 18
2 5 2 Finite Element Method with Perfectly Matched Layer (PML) 24
References 28
3 Numerical Inverse Acoustic Scattering Problems 29
3 1 Overview 29
3 2 Strengthened Linear Sampling Methods 32
3 2 1 Strengthened Linear Sampling Method with a Reference Ball 33
3 2 2 Numerical Experiments and Discussion 41
3 2 3 Conclusion 53
3 3 Single-Shot Method for Multiple Multiscale Scatterers 56
3 3 1 Locating Small Scatterers 57
3 3 2 Locating Scatterers of Regular Size 65
3 3 3 Locating Scatterers of Multiple Scales 75
3 4 Reconstruction by Phaseless Backscattering Measurements 81
3 4 1 Physical Optics Approximation 82
3 4 2 Recovery Scheme 88
3 4 3 Numerical Experiments and Discussions 92
3 4 4 Concluding Remarks 96
References 99
4 Direct Electromagnetic Scattering Problems 105
4 1 Electromagnetic Scattering From Obstacles 106
4 2 Electromagnetic Scattering From Mediums 107
4 3 Electromagnetic Scattering From Complex Scatterers 108
4 4 Green’s Theorem and Representation Formulas 112
4 5 Numerical Methods for Electromagnetic Scattering Problems 116
References 124
5 Numerical Inverse Electromagnetic Scattering Problems 125
5 1 Overview 125
5 2 Strengthened Linear Sampling Methods 126
5 3 Single-shot Method for Multiple Multiscale Scatterers 127
5 3 1 The Locating Schemes 129
5 3 2 Proofs of Theorems 5 3 1 and 5 3 2 136
5 3 3 Numerical Experiments and Discussions 145
5 3 4 Concluding Remarks 152
5 4 Scatterers 153
5 4 1 Multi-scale EM Scatterers and Two Locating Schemes ________154
5 4 2 Scheme R with Augmented Reference Spaces 158
5 4 3 Locating Multiple Multi-scale Scatterers 164
5 4 4 Numerical Experiments and Discussions 166
5 4 5 Discussions 175
References 176
6 Direct Elastic Scattering Problems 179
6 1 Elastic Scattering from Obstacles 180
6 2 Elastic Scattering from Mediums 181
6 3 Elastic Scattering from Complex Scatterers 182
6 4 Green’s Theorems and Representation Formulas 189
6 5 Numerical Methods for Elastic Scattering Problems 196
References 204
7 Numerical Inverse Elastic Scattering Problems 205
7 1 Overview 205
7 2 Single-Shot Method for Multiple Multiscale Scatterers 206
7 2 1 Locating Multiple Small Scatterers 206
7 2 2 Locating Multiple Extended Scatterers 212
7 2 3 Locating Multiple Multiscale Scatterers 223
7 2 4 Numerical Examples 225
7 2 5 Concluding Remarks 230
7 3 Traction Free Case 231
7 3 1 Elastic Scattering From Multiscale Scatterers 232
7 3 2 Locating Multiple Multiscale Elastic Scatterers 242
7 4 Reconstructing Multiple Small Scatterers 248
7 5 Reconstructing Multiple Extended Scatterers 251
7 6 Reconstructing Multiple Multiscale Scatterers 257
7 7 Two-Stage Fast Imaging of Multiple Multiscale Scatterers 260
References 265
8 Miscellaneous Topics 269
8 1 Multilevel Linear Sampling Methods 269
8 1 1 Multilevel Linear Sampling Method 271
8 1 2 Numerical Experiments and Some Discussions 279
8 2 EMLSM 292
8 2 1 Inverse Acoustic Obstacle Scattering Problem 293
8 2 2 Review of LSM and MLSM 294
8 2 3 Enhanced Multilevel-LSMs 297
8 2 4 Numerical Experiments 304
References 313
9 Others 315
9 1 Ground Detection by a Single Electromagnetic Far-Field Measurement 315
9 1 1 Scattering from Multiscale Ground Objects 318
9 1 2 Locating Multiscale Ground Objects 324
9 1 3 Numerical Experiments and Discussions 326
9 2 Recovering Multiscale Buried Anomalies in a Two-Layered Medium 336
9 2 1 Mathematical Formulation 337
9 2 2 Results on Direct Scattering Problem 339
9 2 3 Recovery Scheme 351
9 2 4 Numerical Experiments 357
References 362
Book list of the Series in Information and Computational Science 365
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精彩書摘
Chapter 1 Introduction
Inverse problems are concerned with the determination of causes by known consequences They lie at the heart of scientific inquiries and technological developments In its abstract formulation， an inverse problem can be described by the following operator equation，
(1 0 1)
where x g and，with 3C and W signifying the sets of target objects and observation data， respectively SC usually consists of certain functions and/or geometries， which respectively signify the medium and geometrical/topological properties of the target objects; and W consists of certain physical observables The inverse problem associated with (1 0 1) can be formulated as recovering/identifying x or certain missing information of ^ by knowledge of y
In this book， we are mainly concerned with inverse problems associated with waves In physics， mathematics and related fields， a wave is a propagating dynamic disturbance (chan