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Other titles in the Pure and Applied Mathematics: A Wiley-Interscience Series of Texts, Monographs and Tracts series:

Building and Solving Mathematical Programming Models in Engineering and Science (Pure and Applied Mathematics: A Wiley-Interscience Series of Texts, Monographs and Tracts)

by

Building and Solving Mathematical Programming Models in Engineering and Science (Pure and Applied Mathematics: A Wiley-Interscience Series of Texts, Monographs and Tracts) Cover

 

Synopses & Reviews

Publisher Comments:

Fundamental concepts of mathematical modeling

Modeling is one of the most effective, commonly used tools in engineering and the applied sciences. In this book, the authors deal with mathematical programming models both linear and nonlinear and across a wide range of practical applications.

Whereas other books concentrate on standard methods of analysis, the authors focus on the power of modeling methods for solving practical problems–clearly showing the connection between physical and mathematical realities–while also describing and exploring the main concepts and tools at work. This highly computational coverage includes:

  • Discussion and implementation of the GAMS programming system
  • Unique coverage of compatibility
  • Illustrative examples that showcase the connection between model and reality
  • Practical problems covering a wide range of scientific disciplines, as well as hundreds of examples and end-of-chapter exercises
  • Real-world applications to probability and statistics, electrical engineering, transportation systems, and more

Building and Solving Mathematical Programming Models in Engineering and Science is practically suited for use as a professional reference for mathematicians, engineers, and applied or industrial scientists, while also tutorial and illustrative enough for advanced students in mathematics or engineering.

Synopsis:

Fundamental concepts of mathematical modeling

Modeling is one of the most effective, commonly used tools in engineering and the applied sciences. In this book, the authors deal with mathematical programming models both linear and nonlinear and across a wide range of practical applications.

Whereas other books concentrate on standard methods of analysis, the authors focus on the power of modeling methods for solving practical problems-clearly showing the connection between physical and mathematical realities-while also describing and exploring the main concepts and tools at work. This highly computational coverage includes:

* Discussion and implementation of the GAMS programming system

* Unique coverage of compatibility

* Illustrative examples that showcase the connection between model and reality

* Practical problems covering a wide range of scientific disciplines, as well as hundreds of examples and end-of-chapter exercises

* Real-world applications to probability and statistics, electrical engineering, transportation systems, and more

Building and Solving Mathematical Programming Models in Engineering and Science is practically suited for use as a professional reference for mathematicians, engineers, and applied or industrial scientists, while also tutorial and illustrative enough for advanced students in mathematics or engineering.

Synopsis:

Fundamental concepts of mathematical modeling

Modeling is one of the most effective, commonly used tools in engineering and the applied sciences. In this book, the authors deal with mathematical programming models both linear and nonlinear and across a wide range of practical applications.

Whereas other books concentrate on standard methods of analysis, the authors focus on the power of modeling methods for solving practical problems–clearly showing the connection between physical and mathematical realities–while also describing and exploring the main concepts and tools at work. This highly computational coverage includes:

  • Discussion and implementation of the GAMS programming system
  • Unique coverage of compatibility
  • Illustrative examples that showcase the connection between model and reality
  • Practical problems covering a wide range of scientific disciplines, as well as hundreds of examples and end-of-chapter exercises
  • Real-world applications to probability and statistics, electrical engineering, transportation systems, and more

Building and Solving Mathematical Programming Models in Engineering and Science is practically suited for use as a professional reference for mathematicians, engineers, and applied or industrial scientists, while also tutorial and illustrative enough for advanced students in mathematics or engineering.

About the Author

ENRIQUE CASTILLO, PhD, is Full Professor of Applied Mathematics at the University of Cantabria in Santander, Spain.

ANTONIO J. CONEJO, PhD, is Full Professor of Electrical Engineering at the Universidad de Castilla La Mancha, Ciudad Real, Spain.

PABLO PEDREGAL, PhD, is Full Professor of Applied Mathematics at the University of Cantabria.

RICARDO GARCIA is a mathematician in the fields of optimization and operation research.

NATALIA ALGUACIL, PhD, researches optimization by decomposition techniques.

Table of Contents

MODELS.

Linear Programming.

Mixed Integer Linear Programming.

Nonlinear Programming.

METHODS.

An Introduction to Linear Programming.

Understanding the Set of All Feasible Solutions.

Solving the Linear Programming Problem.

Mixed-Integer Linear Programming.

Optimality in Nonlinear Programming.

Computational Methods for Nonlinear Programming.

SOFTWARE.

The GAMS Package.

Some Examples Using GAMS.

APPLICATIONS.

Applications.

Some Useful Modeling Tricks.

Appendix A: Compatibility and Set of All Feasible Solutions.

Appendix B: List of Notation.

Bibliography.

Index.

Product Details

ISBN:
9780471150435
Author:
Castillo, Enrique
Publisher:
Wiley-Interscience
Author:
Antonio
Author:
Garc
Author:
Conejo, Antonio J.
Author:
Pablo Pedreg
Author:
#237
Author:
A
Author:
J. Conejo
Author:
a, Ricardo
Author:
Garc&iacute a., Ricardo
Author:
Al
Author:
Ricardo Ga
Author:
iacute
Author:
Ique
Author:
&
Author:
R, C.
Author:
Ricardo Garc
Author:
Castillo, Enr
Author:
Alguacil, Natalia
Author:
Pedregal, Pablo
Location:
New York
Subject:
Engineering - General
Subject:
Programming
Subject:
Applied
Subject:
Engineering models
Subject:
Programming (Mathematics)
Subject:
Engineering-General Engineering
Subject:
Mathematical Modeling
Subject:
Mathematical Modelin
Subject:
G
Copyright:
Edition Description:
WOL online Book (not BRO)
Series:
Pure and Applied Mathematics: A Wiley Series of Texts, Monographs and Tracts
Series Volume:
54
Publication Date:
November 2001
Binding:
HARDCOVER
Grade Level:
Professional and scholarly
Language:
English
Illustrations:
Yes
Pages:
568
Dimensions:
6.14x9.21x1.24 in. 2.13 lbs.

Related Subjects

Engineering » Communications » Radio
Engineering » Engineering » General Engineering
Science and Mathematics » Mathematics » Applied

Building and Solving Mathematical Programming Models in Engineering and Science (Pure and Applied Mathematics: A Wiley-Interscience Series of Texts, Monographs and Tracts) New Hardcover
0 stars - 0 reviews
$199.95 In Stock
Product details 568 pages Wiley-Interscience - English 9780471150435 Reviews:
"Synopsis" by , Fundamental concepts of mathematical modeling

Modeling is one of the most effective, commonly used tools in engineering and the applied sciences. In this book, the authors deal with mathematical programming models both linear and nonlinear and across a wide range of practical applications.

Whereas other books concentrate on standard methods of analysis, the authors focus on the power of modeling methods for solving practical problems-clearly showing the connection between physical and mathematical realities-while also describing and exploring the main concepts and tools at work. This highly computational coverage includes:

* Discussion and implementation of the GAMS programming system

* Unique coverage of compatibility

* Illustrative examples that showcase the connection between model and reality

* Practical problems covering a wide range of scientific disciplines, as well as hundreds of examples and end-of-chapter exercises

* Real-world applications to probability and statistics, electrical engineering, transportation systems, and more

Building and Solving Mathematical Programming Models in Engineering and Science is practically suited for use as a professional reference for mathematicians, engineers, and applied or industrial scientists, while also tutorial and illustrative enough for advanced students in mathematics or engineering.

"Synopsis" by , Fundamental concepts of mathematical modeling

Modeling is one of the most effective, commonly used tools in engineering and the applied sciences. In this book, the authors deal with mathematical programming models both linear and nonlinear and across a wide range of practical applications.

Whereas other books concentrate on standard methods of analysis, the authors focus on the power of modeling methods for solving practical problems–clearly showing the connection between physical and mathematical realities–while also describing and exploring the main concepts and tools at work. This highly computational coverage includes:

  • Discussion and implementation of the GAMS programming system
  • Unique coverage of compatibility
  • Illustrative examples that showcase the connection between model and reality
  • Practical problems covering a wide range of scientific disciplines, as well as hundreds of examples and end-of-chapter exercises
  • Real-world applications to probability and statistics, electrical engineering, transportation systems, and more

Building and Solving Mathematical Programming Models in Engineering and Science is practically suited for use as a professional reference for mathematicians, engineers, and applied or industrial scientists, while also tutorial and illustrative enough for advanced students in mathematics or engineering.

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