An Introduction for Engineers and Scientists
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Köp båda 2 för 2142 krJ. Carlos Santamarina, Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA 30332-0355, USA Dante Fratta, 3418H CEBA, Civil and Environmental Engineering, Louisiana State University, Baton Rouge, LA 70803, USA
Preface xi Brief Comments on Notation xiii 1 Introduction 1 1.1 Signals, Systems, and Problems 1 1.2 Signals and Signal Processing Application Examples 3 1.3 Inverse Problems Application Examples 8 1.4 History Discrete Mathematical Representation 10 1.5 Summary 12 Solved Problems 12 Additional Problems 14 2 Mathematical Concepts 17 2.1 Complex Numbers and Exponential Functions 17 2.2 Matrix Algebra 21 2.3 Derivatives Constrained Optimization 28 2.4 Summary 29 Further Reading 29 Solved Problems 30 Additional Problems 33 3 Signals and Systems 35 3.1 Signals: Types and Characteristics 35 3.2 Implications of Digitization Aliasing 40 3.3 Elemental Signals and Other Important Signals 45 3.4 Signal Analysis with Elemental Signals 49 3.5 Systems: Characteristics and Properties 53 3.6 Combination of Systems 57 3.7 Summary 59 Further Reading 59 Solved Problems 60 Additional Problems 63 4 Time Domain Analyses of Signals and Systems 65 4.1 Signals and Noise 65 4.2 Cross- and Autocorrelation: Identifying Similarities 77 4.3 The Impulse Response System Identification 85 4.4 Convolution: Computing the Output Signal 89 4.5 Time Domain Operations in Matrix Form 94 4.6 Summary 96 Further Reading 96 Solved Problems 97 Additional Problems 99 5 Frequency Domain Analysis of Signals (Discrete Fourier Transform) 103 5.1 Orthogonal Functions Fourier Series 103 5.2 Discrete Fourier Analysis and Synthesis 107 5.3 Characteristics of the Discrete Fourier Transform 112 5.4 Computation in Matrix Form 119 5.5 Truncation, Leakage, and Windows 121 5.6 Padding 123 5.7 Plots 125 5.8 The Two-Dimensional Discrete Fourier Transform 127 5.9 Procedure for Signal Recording 128 5.10 Summary 130 Further Reading and References 131 Solved Problems 131 Additional Problems 134 6 Frequency Domain Analysis of Systems 137 6.1 Sinusoids and Systems Eigenfunctions 137 6.2 Frequency Response 138 6.3 Convolution 142 6.4 Cross-Spectral and Autospectral Densities 147 6.5 Filters in the Frequency Domain Noise Control 151 6.6 Determining H with Noiseless Signals (Phase Unwrapping) 156 6.7 Determining H with Noisy Signals (Coherence) 160 6.8 Summary 168 Further Reading and References 169 Solved Problems 169 Additional Problems 172 7 Time Variation and Nonlinearity 175 7.1 Nonstationary Signals: Implications 175 7.2 Nonstationary Signals: Instantaneous Parameters 179 7.3 Nonstationary Signals: Time Windows 184 7.4 Nonstationary Signals: Frequency Windows 188 7.5 Nonstationary Signals: Wavelet Analysis 191 7.6 Nonlinear Systems: Detecting Nonlinearity 197 7.7 Nonlinear Systems: Response to Different Excitations 200 7.8 Time-Varying Systems 204 7.9 Summary 207 Further Reading and References 209 Solved Problems 209 Additional Problems 212 8 Concepts in Discrete Inverse Problems 215 8.1 Inverse Problems Discrete Formulation 215 8.2 Linearization of Nonlinear Problems 227 8.3 Data-Driven Solution Error Norms 228 8.4 Model Selection Ockhams Razor 234 8.5 Information 238 8.6 Data and Model Errors 240 8.7 Nonconvex Error Surfaces 241 8.8 Discussion on Inverse Problems 242 8.9 Summary 243 Further Reading and References 244 Solved Problems 244 Additional Problems 246 9 Solution by Matrix Inversion 249 9.1 Pseudoinverse 249 9.2 Classification of Inverse Problems 250 9.3 Least Squares Solution (LSS) 253 9.4 Regularized Least Squares Solution (RLSS) 255 9.5 Incorporating Additional Information 262 9.6 Solution Based on Singular Value Decomposition 265 9.7 Nonlinearity 267 9.8 Statistical Concepts Error Propagation 268 9.9 Experimental Design for Inverse Problems 272 9.10 Methodology for the Solution of Inverse Problems 274 9.11 Summary 275 Further Reading 276 Solved Problems 277 Additional Problems 282 10 Other Inversion Methods 285 10