The subject of Digital Signal Processing (DSP) is enormously complex, involving many concepts, probabilities, and signal processing that are woven together in an intricate manner. To cope with this scope and complexity, many DSP texts are often organized around the “numerical examples” of a communication system. With such organization, readers can see through the complexity of DSP, they learn about the distinct concepts and protocols in one part of the communication system while seeing the big picture of how all parts fit together. From a pedagogical perspective, our personal experience has been that such approach indeed works well.
Based on the authors’ extensive experience in teaching and research, Digital Signal Processing: a breadth-first approach is written with the reader in mind. The book is intended for a course on digital signal processing, for seniors and undergraduate students. The subject has high popularity in the field of electrical and computer engineering, and the authors consider all the needs and tools used in analysis and design of discrete time systems for signal processing.
Key features of the book include:• The extensive use of MATLAB based examples to illustrate how to solve signal processing problems. The textbook includes a wealth of problems, with solutions• Worked-out examples have been included to explain new and difficult concepts, which help to expose the reader to real-life signal processing problems• The inclusion of FIR and IIR filter design further enrich the contents
By:
Muhammad Khan, Syed K. Hasnain, Mohsin Jamil Imprint: River Publishers Country of Publication: Denmark Dimensions:
Height: 234mm,
Width: 156mm,
Spine: 38mm
Weight: 1.157kg ISBN:9788793379404 ISBN 10: 8793379404 Series:River Publishers Series in Signal, Image and Speech Processing Pages: 706 Publication Date:15 May 2016 Audience:
College/higher education
,
A / AS level
Format:Hardback Publisher's Status: Active
Contents: Preface; Participants of the Reviewing Process; 1. Digital Signal Processing; 2. Signals and Systems; 3. Convolution and Correlation; 4. Z Transform; 5. Solution of Difference Equation; 6. Discrete Time Fourier Transform; 7. Structure of Digital Filters; 8. Introduction to Digital Filters; 9. Step by Step Design of FIR Filters; 10. Step by Step Design of IIR Filters; 11. Finite Word Length Effects; 12. Review Questions with Answers; 13. Examination Question Papers.