Adaptive systems, which change in behavior depending on external circumstances, have been an important area of research for many years. Engineers have been designing adaptive systems, and many architectures, techniques, and adaptation algorithms have been proposed. Adaptive filters play an important role in many different applications in telecommunications, control, and seismic exploration systems, such as channel equalization, adaptive signal modeling for speech synthesis, system identification, echo and noise cancellation, and predictive deconvolution. Fundamentals of Adaptive Filtering fills a need for a well-written, accessible yet comprehensive book designed for practical implementation issues as well as the theoretical basis for engineering choices.
This book is based on a graduate level course offered by the author at UCLA and has been classed tested there and at other universities over a number of years. This will be the most comprehensive book on the market today providing instructors a wide choice in designing their courses.
_ Offers computer problems to illustrate real life applications for students and professionals alike
_ There will be an Instructor's Manual presenting detailed solutions to all the problems in the book
This book is based on a graduate level course offered by the author at UCLA and has been classed tested there and at other universities over a number of years. This will be the most comprehensive book on the market today providing instructors a wide choice in designing their courses.
_ Offers computer problems to illustrate real life applications for students and professionals alike
_ There will be an Instructor's Manual presenting detailed solutions to all the problems in the book