Optimization in Engineering Sciences

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Beschreibung

The purpose of this book is to present the main methods of static and dynamic optimization. It has been written within the framework of the European Union project ERRIC (Empowering Romanian Research on Intelligent Information Technologies), funded by the EU s FP7 Research Potential program and developed in cooperation between French and Romanian teaching researchers. Through the principles of various proposed algorithms (with additional references) this book allows the interested reader to explore various methods of implementation such as linear programming, nonlinear programming particularly important given the wide variety of existing algorithms, dynamic programming with various application examples and Hopfield networks. The book examines optimization in relation to systems identification; optimization of dynamic systems with particular application to process control; optimization of large scale and complex systems; optimization and information systems.



Autorentext

Pierre Borne is Professor "de Classe Exceptionnelle" at the Ecole Centrale de Lille, France.

Dumitru Popescu is Professor at the Faculty of Computers and Automatic Control of Bucharest, Romania.

Professor Florin Gheorghe Filip, member of the Romanian Academy. Is the vice-president of the Romanian Academy and a senior researcher the National Computer Science Research and Development Institute, Bucharest, Romania.

Dan Stefanoiu is Professor at "Politehnica" University of Bucharest, Romania.

Inhalt

Foreword ix

Preface xi

List of Acronyms xiii

Chapter 1. Linear Programming 1

1.1. Objective of linear programming 1

1.2. Stating the problem 1

1.3. Lagrange method 4

1.4. Simplex algorithm 5

1.4.1. Principle 5

1.4.2. Simplicial form formulation 5

1.4.3. Transition from one simplicial form to another 7

1.4.4. Summary of the simplex algorithm 9

1.5. Implementation example 11

1.6. Linear programming applied to the optimization of resource allocation 13

1.6.1. Areas of application 13

1.6.2. Resource allocation for advertising 13

1.6.3. Optimization of a cut of paper rolls 16

1.6.4. Structure of linear program of an optimal control problem 17

Chapter 2. Nonlinear Programming 23

2.1. Problem formulation 23

2.2. KarushKuhnTucker conditions 24

2.3. General search algorithm 26

2.3.1. Main steps 26

2.3.2. Computing the search direction 29

2.3.3. Computation of advancement step 33

2.4. Monovariable methods 33

2.4.1. Coggin's method (of polynomial interpolation) 34

2.4.2. Golden section method 36

2.5. Multivariable methods 39

2.5.1. Direct search methods 39

2.5.2. Gradient methods 57

Chapter 3. Dynamic Programming 101

3.1. Principle of dynamic programming 101

3.1.1. Stating the problem 101

3.1.2. Decision problem 101

3.2. Recurrence equation of optimality 102

3.3. Particular cases 104

3.3.1. Infinite horizon stationary problems 104

3.3.2. Variable horizon problem 104

3.3.3. Random horizon problem 104

3.3.4. Taking into account sum-like constraints 105

3.3.5. Random evolution law 106

3.3.6. Initialization when the final state is imposed 106

3.3.7. The case when the necessary information is not always available 107

3.4. Examples 107

3.4.1. Route optimization 107

3.4.2. The smuggler problem 109

Chapter 4. Hopfield Networks 115

4.1. Structure 115

4.2. Continuous dynamic Hopfield networks 117

4.2.1. General problem 117

4.2.2. Application to the traveling salesman problem 121

4.3. Optimization by Hopfield networks, based on simulated annealing 123

4.3.1. Deterministic method 123

4.3.2. Stochastic method 125

Chapter 5. Optimization in System Identification 131

5.1. The optimal identification principle 131

5.2. Formulation of optimal identification problems 132

5.2.1. General problem 132

5.2.2. Formulation based on optimization theory 133

5.2.3. Formulation based on estimation theory (statistics) 136

5.3. Usual identification models 138

5.3.1. General model 138

5.3.2. Rational input/output (RIO) models 140

5.3.3. Class of autoregressive models (ARMAX) 142

5.3.4. Class of state space representation models 145

5.4. Basic least squares method 146

5.4.1. LSM type solution 146

5.4.2. Geometric interpretation of the LSM solution 151

5.4.3. Consistency of the LSM type solution 154

5.4.4. Example of application of the LSM for an ARX model 157

5.5. Modified least squares methods 158

5.5.1. Recovering lost consistency 158

5.5.2. Extended LSM 162

5.5.3. Instrumental variables method 164

5.6. Minimum prediction error method 168

5.6.1. Basic principle and algorithm 168

5.6.2. Implementation of the MPEM for ARMAX models 171

5.6.3. Convergence and consistency of MPEM type estimations 174

5.7. Adaptive optimal identification methods 175

5.7.1. Accuracy/adaptability paradigm 175

5.7.2. Basic adaptive version of the LSM 177

5.7.3. Basic adaptive version of the IVM 182

5.7.4. Adaptive window versions of the LSM and IVM 183

Chapter 6. Optimization of Dynamic Systems 1...

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Produktinformationen

Titel
Optimization in Engineering Sciences
Untertitel
Exact Methods
Autor
EAN
9781118577844
ISBN
978-1-118-57784-4
Format
E-Book (epub)
Hersteller
Wiley
Herausgeber
Wiley-Iste
Genre
Maschinenbau, Fertigungstechnik
Veröffentlichung
24.01.2013
Digitaler Kopierschutz
Adobe-DRM
Dateigrösse
8.01 MB
Anzahl Seiten
336
Jahr
2013
Auflage
11. Aufl.
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