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E-raamat: Neural-Based Orthogonal Data Fitting: The EXIN Neural Networks

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Neural-Based Orthogonal Data Fitting: The EXIN Neural NetworksSuurem pilt
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"Written by three leaders in the field of neural based algorithms, Neural Based Orthogonal Data Fitting proposes several neural networks, all endowed with a complete theory which not only explains their behavior, but also compares them with the existing neural and traditional algorithms. The algorithms are studied from different points of view, including: as a differential geometry problem, as a dynamic problem, as a stochastic problem, and as a numerical problem. All algorithms have also been analyzed on real time problems (large dimensional data matrices) and have shown accurate solutions. Where most books on the subject are dedicated to PCA (principal component analysis) and consider MCA (minor component analysis) as simply a consequence, this is the fist book to start from the MCA problem and arrive at important conclusions about the PCA problem."--



The presentation of a novel theory in orthogonal regression

The literature about neural-based algorithms is often dedicated to principal component analysis (PCA) and considers minor component analysis (MCA) a mere consequence. Breaking the mold, Neural-Based Orthogonal Data Fitting is the first book to start with the MCA problem and arrive at important conclusions about the PCA problem.

The book proposes several neural networks, all endowed with a complete theory that not only explains their behavior, but also compares them with the existing neural and traditional algorithms. EXIN neurons, which are of the authors' invention, are introduced, explained, and analyzed. Further, it studies the algorithms as a differential geometry problem, a dynamic problem, a stochastic problem, and a numerical problem. It demonstrates the novel aspects of its main theory, including its applications in computer vision and linear system identification. The book shows both the derivation of the TLS EXIN from the MCA EXIN and the original derivation, as well as:

  • Shows TLS problems and gives a sketch of their history and applications

  • Presents MCA EXIN and compares it with the other existing approaches

  • Introduces the TLS EXIN neuron and the SCG and BFGS acceleration techniques and compares them with TLS GAO

  • Outlines the GeTLS EXIN theory for generalizing and unifying the regression problems

  • Establishes the GeMCA theory, starting with the identification of GeTLS EXIN as a generalization eigenvalue problem

In dealing with mathematical and numerical aspects of EXIN neurons, the book is mainly theoretical. All the algorithms, however, have been used in analyzing real-time problems and show accurate solutions. Neural-Based Orthogonal Data Fitting is useful for statisticians, applied mathematics experts, and engineers.

Arvustused

"Written by two leaders in the eld of neural-based algorithms, this book proposes several neural networks, all endowed with a complete theory which not only explains their behavior, but also compares them with the existing neural and traditional algorithms." (Zentralblatt MATH 2016) Written by two leaders in the eld of neural-based algorithms, this book proposes several neural networks, all endowed with a complete theory which not only explains their behavior, but also compares them with the existing neural and traditional algorithms.

Foreword ix
Preface xi
1 Total Least Squares Problems 1(24)
1.1 Introduction
1(1)
1.2 Some TLS Applications
2(1)
1.3 Preliminaries
3(1)
1.4 Ordinary Least Squares Problems
4(1)
1.5 Basic TLS Problem
5(4)
1.6 Multidimensional TLS Problem
9(2)
1.7 Nongeneric Unidimensional TLS Problem
11(3)
1.8 Mixed OLS—TLS Problem
14(1)
1.9 Algebraic Comparisons Between TLS and OLS
14(1)
1.10 Statistical Properties and Validity
15(3)
1.11 Basic Data Least Squares Problem
18(1)
1.12 Partial TLS Algorithm
19(1)
1.13 Iterative Computation Methods
19(3)
1.14 Rayleigh Quotient Minimization Nonneural and Neural Methods
22(3)
2 MCA EXIN Neuron 25(64)
2.1 Rayleigh Quotient
25(3)
2.2 Minor Components Analysis
28(4)
2.3 MCA EXIN Linear Neuron
32(2)
2.4 Rayleigh Quotient Gradient Flows
34(2)
2.5 MCA EXIN ODE Stability Analysis
36(14)
2.6 Dynamics of the MCA Neurons
50(16)
2.7 Fluctuations (Dynamic Stability) and Learning Rate
66(7)
2.8 Numerical Considerations
73(4)
2.9 TLS Hyperplane Fitting
77(1)
2.10 Simulations for the MCA EXIN Neuron
78(8)
2.11 Conclusions
86(3)
3 Variants of the MCA EXIN Neuron 89(28)
3.1 High-Order MCA Neurons
89(1)
3.2 Robust MCA EXIN Nonlinear Neuron (NMCA EXIN)
90(6)
3.3 Extensions of the Neural MCA
96(21)
4 Introduction to the TLS EXIN Neuron 117(24)
4.1 From MCA EXIN to TLS EXIN
117(2)
4.2 Deterministic Proof and Batch Mode
119(1)
4.3 Acceleration Techniques
120(5)
4.4 Comparison with TLS GAO
125(1)
4.5 TLS Application: Adaptive IIR Filtering
126(6)
4.6 Numerical Considerations
132(3)
4.7 TLS Cost Landscape: Geometric Approach
135(4)
4.8 First Considerations on the TLS Stability Analysis
139(2)
5 Generalization of Linear Regression Problems 141(64)
5.1 Introduction
141(1)
5.2 Generalized Total Least Squares (GETLS EXIN) Approach
142(7)
5.3 GeTLS Stability Analysis
149(29)
5.4 Neural Nongeneric Unidimensional TLS
178(6)
5.5 Scheduling
184(4)
5.6 Accelerated MCA EXIN Neuron (MCA EXIN+)
188(6)
5.7 Further Considerations
194(4)
5.8 Simulations for the GeTLS EXIN Neuron
198(7)
6 GeMCA EXIN Theory 205(22)
6.1 GeMCA Approach
205(5)
6.2 Analysis of Matrix K
210(3)
6.3 Analysis of the Derivative of the Eigensystem of GeTLS EXIN
213(5)
6.4 Rank One Analysis Around the TLS Solution
218(1)
6.5 GeMCA spectra
219(5)
6.6 Qualitative Analysis of the Critical Points of the GeMCA EXIN Error Function
224(1)
6.7 Conclusions
225(2)
References 227(12)
Index 239
GIANSALVO CIRRINCIONE, PD, is an assistant professor at the University of Picardie-Jules Verne, Amiens, France. His current research interests are neural networks, data analysis, computer vision, intelligent control, applied mathematics, brain models, and system identification. E-mail address: exin@u-picardie.fr MAURIZIO CIRRINCIONE, PD, is a full professor of control and signal processing at the University of Technology of Belfort-Montbeliard, France. His current research interests are neural networks, modeling and control, system identification, data analysis, intelligent control, and electrical machines and drives. E-mail address: maurizio.cirrincione@utbm.fr
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