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9781420095234

Advanced Linear Algebra for Engineers with MATLAB

by Dianat; Sohail A.
  • ISBN13:

    9781420095234

  • ISBN10:

    1420095234

  • Edition: 1st
  • Format: Hardcover
  • Copyright: 2009-02-23
  • Publisher: CRC Press

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Summary

Designed to elevate the analytical and problem-solving skills of engineering students, this text provides systematic instruction that will allow those students to make full use of the advanced capacities that MATLAB Ò provides. Based on the applied experience of two leading industry consultants in signal and image processing and circuit analysis, this textbook is designed to support the highly regarded courses the two teach at RIT. Offering a broad selection of progressive exercises and MATLAB Ò problems, each chapter features carefully chosen examples that demonstrate underlying ideas at work in practical scenarios. A complete solutions manual is provided for qualifying instructors.

Table of Contents

Prefacep. xiii
Authorsp. xvii
Matrices, Matrix Algebra, and Elementary Matrix Operationsp. 1
Introductionp. 1
Basic Concepts and Notationp. 1
Matrix and Vector Notationp. 1
Matrix Definitionp. 1
Elementary Matricesp. 3
Elementary Matrix Operationsp. 5
Matrix Algebrap. 6
Matrix Addition and Subtractionp. 7
Properties of Matrix Additionp. 7
Matrix Multiplicationp. 7
Properties of Matrix Multiplicationp. 8
Applications of Matrix Multiplication in Signal and Image Processingp. 8
Application in Linear Discrete One Dimensional Convolutionp. 9
Application in Linear Discrete Two Dimensional Convolutionp. 14
Matrix Representation of Discrete Fourier Transformp. 18
Elementary Row Operationsp. 22
Row Echelon Formp. 23
Elementary Transformation Matricesp. 24
Type 1: Scaling Transformation Matrix (E1p. 24
Type 2: Interchange Transformation Matrix (E2)p. 25
Type 3: Combination Transformation Matrices (E3)p. 26
Solution of System of Linear Equationsp. 27
Gaussian Eliminationp. 27
Over Determined Systemsp. 31
Under Determined Systemsp. 32
Matrix Partitionsp. 32
Column Partitionsp. 33
Row Partitionsp. 34
Block Multiplicationp. 35
Inner, Outer, and Kronecker Productsp. 38
Inner Productp. 38
Outer Productp. 39
Kronecker Productsp. 40
Problemsp. 40
Determinants, Matrix Inversion and Solutions to Systems of Linear Equationsp. 49
Introductionp. 49
Determinant of a Matrixp. 49
Properties of Determinantp. 52
Row Operations and Determinantsp. 53
Interchange of Two Rowsp. 53
Multiplying a Row of A by a Nonzero Constantp. 54
Adding a Multiple of One Row to Another Rowp. 55
Singular Matricesp. 55
Matrix Inversionp. 58
Properties of Matrix Inversionp. 60
Gauss-Jordan Method for Calculating Inverse of a Matrixp. 60
Useful Formulas for Matrix Inversionp. 63
Recursive Least Square (RLS) Parameter Estimationp. 64
Solution of Simultaneous Linear Equationsp. 67
Equivalent Systemsp. 69
Strict Triangular Formp. 69
Cramer's Rulep. 70
LU Decompositionp. 71
Applications: Circuit Analysisp. 75
Homogeneous Coordinates Systemp. 78
Applications of Homogeneous Coordinates in Image Processingp. 79
Rank, Null Space and Invertibility of Matricesp. 85
Null Space N(A)p. 85
Column Space C(A)p. 87
Row Space R(A)p. 87
Rank of a Matrixp. 89
Special Matrices with Applicationsp. 90
Vandermonde Matrixp. 90
Hankel Matrixp. 91
Toeplitz Matricesp. 91
Permutation Matrixp. 92
Markov Matricesp. 92
Circulant Matricesp. 93
Hadamard Matricesp. 93
Nilpotent Matricesp. 94
Derivatives and Gradientsp. 95
Derivative of Scalar with Respect to a Vectorp. 95
Quadratic Functionsp. 96
Derivative of a Vector Function with Respect to a Vectorp. 98
Problemsp. 99
Linear Vector Spacesp. 105
Introductionp. 105
Linear Vector Spacep. 105
Definition of Linear Vector Spacep. 105
Examples of Linear Vector Spacesp. 106
Additional Properties of Linear Vector Spacesp. 107
Subspace of a Linear Vector Spacep. 107
Span of a Set of Vectorsp. 108
Spanning Set of a Vector Spacep. 110
Linear Dependencep. 110
Basis Vectorsp. 113
Change of Basis Vectorsp. 114
Normed Vector Spacesp. 116
Definition of Normed Vector Spacep. 116
Examples of Normed Vector Spacesp. 116
Distance Functionp. 117
Equivalence of Normsp. 118
Inner Product Spacesp. 120
Definition of Inner Productp. 120
Examples of Inner Product Spacesp. 121
Schwarz's Inequalityp. 121
Norm Derived from Inner Productp. 123
Applications of Schwarz Inequality in Communication Systemsp. 123
Detection of a Discrete Signal ôBuriedö in White Noisep. 123
Detection of Continuous Signal ôBuriedö in Noisep. 125
Hilbert Spacep. 129
Orthogonalityp. 131
Orthonormal Setp. 131
Gram-Schmidt Orthogonalization Processp. 131
Orthogonal Matricesp. 134
Complete Orthonormal Setp. 135
Generalized Fourier Series (GFS)p. 135
Applications of GFSp. 137
Continuous Fourier Seriesp. 137
Discrete Fourier Transform (DFT)p. 144
Legendre Polynomialp. 145
Sinc Functionsp. 146
Matrix Factorizationp. 147
QR Factorizationp. 147
Solution of Linear Equations Using QR Factorizationp. 149
Problemsp. 151
Eigenvalues and Eigenvectorsp. 157
Introductionp. 157
Matrices as Linear Transformationsp. 157
Definition: Linear Transformationp. 157
Matrices as Linear Operatorsp. 160
Null Space of a Matrixp. 160
Projection Operatorp. 161
Orthogonal Projectionp. 162
Projection Theoremp. 163
Matrix Representation of Projection Operatorp. 163
Eigenvalues and Eigenvectorsp. 165
Definition of Eigenvalues and Eigenvectorsp. 165
Properties of Eigenvalues and Eigenvectorsp. 168
Independent Propertyp. 168
Product and Sum of Eigenvaluesp. 170
Finding the Characteristic Polynomial of a Matrixp. 171
Modal Matrixp. 173
Matrix Diagonalizationp. 173
Distinct Eigenvaluesp. 173
Jordan Canonical Formp. 175
Special Matricesp. 180
Unitary Matricesp. 180
Hermitian Matricesp. 183
Definite Matricesp. 185
Positive Definite Matricesp. 185
Positive Semidefinite Matricesp. 185
Negative Definite Matricesp. 185
Negative Semidefinite Matricesp. 185
Test for Matrix Positivenessp. 185
Singular Value Decomposition (SVD)p. 188
Definition of SVDp. 188
Matrix Normp. 192
Frobenius Normp. 195
Matrix Condition Numberp. 196
Numerical Computation of Eigenvalues and Eigenvectorsp. 199
Power Methodp. 199
Properties of Eigenvalues and Eigenvectors of Different Classes of Matricesp. 205
Applicationsp. 206
Image Edge Detectionp. 206
Gradient Based Edge Detection of Gray Scale Imagesp. 209
Gradient Based Edge Detection of RGB Imagesp. 210
Vibration Analysisp. 214
Signal Subspace Decompositionp. 217
Frequency Estimationp. 217
Direction of Arrival Estimationp. 219
Problemsp. 222
Matrix Polynomials and Functions of Square Matricesp. 229
Introductionp. 229
Matrix Polynomialsp. 229
Infinite Series of Matricesp. 230
Convergence of an Infinite Matrix Seriesp. 231
Cayley-Hamilton Theoremp. 232
Matrix Polynomial Reductionp. 234
Functions of Matricesp. 236
Sylvester's Expansionp. 236
Cayley-Hamilton Techniquep. 240
Modal Matrix Techniquep. 245
Special Matrix Functionsp. 246
Matrix Exponential Function eAtp. 247
Matrix Function Akp. 249
The State Space Modeling of Linear Continuous-time Systemsp. 250
Concept of Statesp. 250
State Equations of Continuous Time Systemsp. 250
State Space Representation of Continuous LTI Systemsp. 254
Solution of Continuous-time State Space Equationsp. 256
Solution of Homogenous State Equations and State Transition Matrixp. 257
Properties of State Transition Matrixp. 258
Computing State Transition Matrixp. 258
Complete Solution of State Equationsp. 259
State Space Representation of Discrete-time Systemsp. 263
Definition of Statesp. 263
State Equationsp. 263
State Space Representation of Discrete-time LTI Systemsp. 264
Solution of Discrete-time State Equationsp. 265
Solution of Homogenous State Equation and State Transition Matrixp. 266
Properties of State Transition Matrixp. 266
Computing the State Transition Matrixp. 267
Complete Solution of the State Equationsp. 268
Controllability of LTI Systemsp. 270
Definition of Controllabilityp. 270
Controllability Conditionp. 270
Observability of LTI Systemsp. 272
Definition of Observabilityp. 272
Observability Conditionp. 272
Problemsp. 276
Introduction to Optimizationp. 283
Introductionp. 283
Stationary Points of Functions of Several Variablesp. 283
Hessian Matrixp. 285
Least-Square (LS) Techniquep. 287
LS Computation Using QR Factorizationp. 288
LS Computation Using Singtilar Value Decomposition (SVD)p. 289
Weighted Least Square (WLS)p. 291
LS Curve Fittingp. 293
Applications of LS Techniquep. 295
One Dimensional Wiener Filterp. 295
Choice of Q Matrix and Scale Factor ßp. 298
Two Dimensional Wiener Filterp. 300
Total Least-Squares (TLS)p. 302
Eigen Filtersp. 304
Stationary Points with Equality Constraintsp. 307
Lagrange Multipliersp. 307
Applicationsp. 310
Maximum Entropy Problemp. 310
Design of Digital Finite Impulse Response (FIR) Filtersp. 312
Problemsp. 316
The Laplace Transformp. 321
Definition of the Laplace Transformp. 321
The Inverse Laplace Transformp. 323
Partial Fraction Expansionp. 323
The z-Transformp. 329
Definition of the z-Transformp. 329
The Inverse z-Transformp. 330
Inversion by Partial Fraction Expansionp. 330
Bibliographyp. 335
Indexp. 339
Table of Contents provided by Ingram. All Rights Reserved.

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