
Principles of communication systems simulation with wireless applications
William H Tranter, Theodore S. Rappaport, Kurt L. Kosbar, K. Sam Shanmugan - Collection Communications engineering and emerginig technologies series
Résumé
For one-semester graduate-level Electrical Engineering courses covering simulation-based design and analysis of communication systems, as well as a reference for professional engineers responsible for the design or analysis of communication systems, or professionals who wish to learn computer-based simulation techniques.
This book presents a comprehensive overview of computer-based simulation models and methodologies for communication systems. Because such models are a useful and necessary tool in the design, analysis, and performance of communication systems as well as a means of evaluating design changes in these systems, Computer Aided Design and Analysis of Communication Systems with Wireless Applications uses MATLAB as a basis for developing effective computer-based simulations. Such simulations are intended to capture the essential features of the system to assure accurate results while minimizing the complexity of the model, ensuring execution of the simulation code in a reasonable amount of time. Among the fundamental topics covered are probability, random, process, and estimation theory and their roles in the design of computer-based simulations.
L'auteur - Theodore S. Rappaport
Theodore S. Rappaport is the James S. Tucker Professor
of Engineering at Virginia Tech, founder of the
university's Mobile & Portable
Radio Research Group, and Chairman of Wireless Valley
Communications. He holds three patents and has authored,
co-authored or
co-edited 12 books, including Wireless Communications:
Principles and Practice (Prentice Hall PTR).
Sommaire
- Preface
- I. INTRODUCTION.
- 1.The Role of Simulation.
- 2.Simulation Methodology.
- II. FUNDAMENTAL CONCEPTS AND TECHNIQUES.
- 3. Sampling and Quantizing.
- 4. Lowpass Simulation Models for Bandpass Signals and Systems.
- 5. Filter Models and Simulation Techniques.
- 6. Case Study: Phase-Locked Loops and Differential Equation Methods.
- 7. Generating and Processing Random Signals.
- 8. Postprocessing.
- 9. Introduction to Monte Carlo Methods.
- 10. Monte Carlo Simulation of Communication Systems.
- 11. Methodology for Simulating a Wireless System.
- III. ADVANCED MODELS AND SIMULATION TECHNIQUES.
- 12. Modeling and Simulation of Nonlinearities.
- 13. Modeling and Simulation of Time-Varying Systems.
- 14. Modeling and Simulation of Waveform Channels.
- 15. Discrete Channel Models.
- 16. Efficient Simulation Techniques.
- 17. Case Study: Simulation of a Cellular Radio System.
- 18. Two Example Simulations.
- Index
- About The Authors
Caractéristiques techniques
PAPIER | |
Éditeur(s) | Prentice Hall |
Auteur(s) | William H Tranter, Theodore S. Rappaport, Kurt L. Kosbar, K. Sam Shanmugan |
Collection | Communications engineering and emerginig technologies series |
Parution | 27/01/2004 |
Nb. de pages | 777 |
Format | 18,8 x 24,3 |
Couverture | Relié |
Poids | 1346g |
Intérieur | Noir et Blanc |
EAN13 | 9780134947907 |
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