"The coverage of the book is comprehensive, providing a broad overview, using a whole host of exercises. The wealth of the worked examples and problems complemented by solutions is particularly attractive. The level of mathematics is not too daunting for the good average student and the authors do their utmost to mitigate the difficulties, skilfully using worked examples."
Prof. Lajos Hanzo, University of Southampton
author of Mobile Radio Communications and Single–and Multi–carrier QAM
Check out the companion Website for ′Systool′ simulation software using Java applets to animate many of the key examples and exercises from the book.
Time–Domain Models of Continuous LTI–Systems.
Modelling LTI–Systems in the Frequency–Domain.
Compex Analysis and the Inverse Laplace Transform.
Analysis of Continuous–Time LTI–Systems with the Laplace Transform.
Solving Initial Condition Problems with the Laplace Transform.
Convolution and Impulse Response.
The Fourier Transform.
Sampling and Periodic Signals.
The Spectrum of Discrete Signals.
Causality and the Hilbert Transform.
Stability and Feedback Systems.
Describing Random Signals.
Random Signals and LTI–Systems.
Appendix A: Solutions to the Exercises.
Appendix B: Tables of Transformations.
RUDOLF RABENSTEIN is a faculty member of the Telecommunications Laboratory at the University of Erlangen–Nuernberg in Germany. His teaching and research activities include web–based tele–teaching as well as one and multidimensional system theory and applications.
ALEXANDER STENGER is with the Technology Centre for Mobile Communications of Philips Semiconductors in Nuernberg, Germany, where he is responsible for acoustic interfaces of mobile telecommunications products.