Master the numerical simulation process required to design, test
and support mobile and parallel computing systems. An accompanying
ftp site contains all the Visual C++ based programs discussed in
the text to help readers create their own programs. With its focus
on problems and solutions, this is an excellent text for
upper-level undergraduate and graduate students, and a must-have
reference for researchers and professionals in the field of
simulations.
More information about Visual C++ based programs can be found at:
ftp: //ftp.wiley.com/public/sci_tech_med/numerical_simulations/
Table des matières
Preface.
1. Developing Applications Using Visual C++.Net.
1.1 Object-Oriented Approach to Visual C++.Net.
1.2 MFC Fundamental Features.
1.3 Writing Applications Using MFC.
1.4 Writing the First Nonwizard Program.
1.5 Discussion.
1.6 Summary and Conclusion.
Bibliography.
2. Interfaces for Numerical Problems.
2.1 Visualizing a Numerical Problem.
2.2 Handling Arrays.
2.3 Finding the Root of a Nonlinear Equation.
2.4 Solving a System of Linear Equations.
2.5 Summary and Conclusion.
Bibliography.
Code Listings.
3. Matrix Operations Using Wizard.
3.1 Document/View Architecture Using Wizard.
3.2 Matrix Algebra.
3.3 System of Linear Equations Problem Revisited.
3.4 Summary and Conclusion.
Bibliography.
Code Listings.
4. Differential Equations Problems.
4.1 Differential Equations.
4.2 Ordinary Differential Equations.
4.3 Partial Differential Equations.
4.4 Summary and Conclusion.
Bibliography.
Code Listings.
5. Drawing Curves.
5.1 Windows Graphics Representation.
5.2 MFC Functions for Displaying Graphics.
5.3 Drawing a Curve.
5.4 Cubic Spline Interpolation.
5.5 Summary and Conclusion.
Bibliography.
Code Listings.
6. Working with Images.
6.1 Handling Images.
6.2 Bitmap File Format.
6.3 Edge-Detection Problem.
6.4 Summary and Conclusion.
Bibliographical Note.
Code Listing.
7. Visualizing a Graph.
7.1 Elementary Graph Concepts.
7.2 Graph Visualization Model.
7.3 Minimum Spanning Tree Problem.
7.4 Summary and Conclusion.
Bibliography.
Code Listings.
8. Graph Applications.
8.1 Graph-Network Relationship.
8.2 Shortest-Path Problem.
8.3 Mesh Network Applications.
8.4 Summary and Conclusion.
Bibliography.
Code Listings.
9. Multiprocessor Scheduling Problem.
9.1 Parallel Computing Systems.
9.2 Task Scheduling Problem.
9.3 Task Scheduling Visualization Model.
9.4 Summary and Conclusion.
Bibliography.
Code Listings.
10. Discrete-Event Simulation.
10.1 Concepts of Simulation.
10.2 Simulation Model Development.
10.3 Discrete-Event System Simulations.
10.4 Multicounter System with Blocking.
10.5 Queueing Systems.
10.6 Summary and Conclusion.
Bibliography.
Code Listings.
11. Modeling Wireless Networks.
11.1 Wireless Cellular Networks.
11.2 Channel-Assignment Problem.
11.3 Channel Assignments: Discrete Model.
11.4 Solving the Channel-Assignment Problem.
11.5 Summary and Conclusion.
Bibliography.
Code Listings.
Index.
A propos de l’auteur
SHAHARUDDIN SALLEH, Ph D, is Associate Professor,
Computational Mathematics Department, Universiti Teknologi
Malaysia. He has widely published research articles and books in
parallel computing algorithms, mobile computing, intelligent
systems, and numerical/combinatorial optimization problems.
ALBERT Y. ZOMAYA, Ph D, is CISCO Systems Chair Professor
of Internetworking, School of Information Technologies, The
University of Sydney. His research interests include
high-performance computing, parallel algorithms, mobile computing,
networking, and bioinformatics. He is a Fellow of the IEEE.
STEPHAN OLARIU, Ph D, is Professor, Computer Science, Old
Dominion University. His research focuses on image processing and
machine vision, parallel architectures, design and analysis of
parallel algorithms, computational graph theory, computational
geometry, and mobile computing.
BAHROM SANUGI, Ph D, is Professor, Numerical Analysis and
Computing, Universiti Teknologi Malaysia. His research interests
include neural networks and numerical algorithms.