Course ID: 11191240
Title: Digital signal processing
Hours/Week: 1.5 – 1 Credit: 1.5 – 0.5
Category: Specialty elective
Prerequisites: Signal and System
Intended audience: Junior in Information Engineering(Opto-electrical program)
Teaching facility: Multimedia
Objectives and requirements:
This course introduces the basic theory, knowledge, methods and the current developments of digital signal processing. By listening to the lectures, doing homework and practicing, the students will be familiar with the theory and method of the generation and description of discrete signal, the properties and computation of common discrete signal transformations, analysis method of discrete system transform and the design of digital filter, etc. The students will also be introduced to the available software for DSP theory realization.
Course summary:
This course introduces the basic theories and methods of digital signal processing, including time-domain representation of discrete time sequences and systems, transform-domain representation of discrete time sequences and systems, frequency domain representation of LTI discrete time systems, digital processing of continuous time signals, digital filter structures and digital filter design. Also, the MABLAB programs are provided.
Outline and time distribution:
Chapter1: Signals and signal processing 2 hours
Chapter2: Time-domain representation of discrete-time Sequences and systems 4 hours
Chapter3: Transform-domain representation of discrete-time Sequences and systems 6 hours
Chapter4: Digital processing of continuous time signals 4 hours
Chapter5: Digital filter Structure 2 hours
Chapter6: Digital filter design 4 hours
Review 2 hours
Related teaching sections:
Experiments:16 class hours
Common discrete-time signal generation and implementation 2 hours
Time-domain analysis of discrete-time system 2 hours
Transform -domain analysis of discrete-time system 2 hours
FIR filter design 2 hours
IIR filter design 2 hours
FFT algorithm implementation and application 2 hours
Design and practice 4 hours
Grading:
Final examination accounts for 60%, experiments for 25%, homework for 15%.
Recommended textbooks or references(Including title, editor, publisher, and publish date of the textbook )
Textbook:
Digital Signal Processing – A Computer-Based Approach, Third Edition,McGraw Hill,Sanjit K. Mitra,Electrical Industry Publisher,2006.
References:
References:
[1] Digital Signal Processing – A Computer-Based Approach, Third Edition,McGraw Hill,Sanjit K. Mitra,2005
[2] Digital Signal Processing Laboratory Using MATLAB, McGraw Hill,Sanjit K. Mitra,2000