The design of communication systems has grown too complicated for the traditional design tools--mathematical analysis and laboratory breadboards. Enter the computer simulation, a powerful and versatile tool that is becoming essential for anyone who designs signal transmission or storage systems.
This volume explains in detail how to use simulation programs as a software breadboard to analyze and evaluate the performance of data communications links. It describes the engineering principles of signal transmission and its simulation, explores programming issues, and provides a comprehensive reference for models of signal processes.
The book clearly demonstrates how simulation techniques can be used to:
? Create valid models of signal processes
? Provide exibility through the use of modules
? Simulate various elements of communications systems, from filters and modulators to test instruments
? Explore alternative models for a given system
? Circumvent the mathematical intractability of modern transmission links
? Plan and construct a computer model in a matter of hours or days, versus the weeks or months needed for laboratory breadboards
? Make parameter changes in minutes once a link has been modeled
? Provide engineers and students with complete training on the elements of simulation
A must have for designers, practicing engineers, and graduate students, this volume presents real-world techniques that can be used with the authors' ST?DT program (a companion work also published by Wiley), or independently with other commercially available simulators.