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Biomedical Signal Processing-415 BMT

New : PPT presentation (Chapter 1).

SYLLABUS

1.     Program Title: Dgital Signal Processing

2.      Program code and number: BMT 415

3.      Faculty member responsible for the program: Dr. Ali Saad

4.      Qualification required for faculty member: Ph.D. or M.Sc.

5.      No. of units/Credit hours: 3 hrs.

6.      level at which this course is offered: 8

7.      Pre-requisites: Math courses. (222-223 BMT)

8.      Co-requisites: NA

9.      General Goal of program:

·        Understand basics of digital signal processing.

·        Application of  digital signal processing to biomedical signals

·        Develop an ability to design and analyze signal processing systems.

10.  Short Description of the course: Understand and design of signal processing system. Sampling and quantization of continuous signal, operate on digital signal , interpolation, decimation, shift, convolution, correlation... , System analysis using Fourier Transform, analysis of digital system with Z-transform. Numerical filters design.

11. Topics to be covered

 Topic No of Weeks Total hours Lecture Tutorial/ Practical Discrete Signals Decimation and interpolations Aliasing and sampling Sampling and Quantization Ideal sampling Sampling interpolation and signal recovery Quantization Digital processing of analogue signal 3 9 3 6 Discrete Convolution Discrete convolution Convolution properties Convolution of finite Sequences Stability and causality of Linear time system (LTI)  System response to periodic inputs Periodic convolution Deconvolution Discrete correlation 2 4 1.5 2 The Z-transform the 2 sided Z-transform properties of the z-transform The transfer function The inverse z-transform The one sided z-transform The z-transform and system analysis 2 6 2 4 Applications of the z-transform Transfer function realization Interconnected system The frequency response : A graphical interpretation 1 3 1 2 Fourier Transform (FT)and appilication on system analysis Introduction (Fourier Series) Fourier Transform Pairs and properties System analysis Using FT Frequency response of Filters 2 6 2 4 Digital filters -IIR (Infinite Impulse response) IIR filter design Response matching  FIR (Finite Impulse response) Symmetric Sequence and linear phase Window-based design Applications 2 6 2 4

1. Teaching Strategies, program Outcomes, and methods of Assessment:
 Knowledge Cognitive Skills Interpersonal Skills and Responsibility Analytic and Communication skills. Teaching Strategies program Outcomes Sampling and quantization ,Manipulate a digital signal, interpolation, decimation, shift, convolution, correlation Numerical filters design. Analysis of digital system with Z-transform. System analysis using Fourier Transform, Home works and practical helps student to works together in groups, and train them  to assume responsibility in writing reports and deliver them at time. methods of Assessment 2 mid-terms written exams (40)and one final written exam (40)+ practical exam and reports (20)

1. Teaching Sources:

a)      Books or notes:  Analog and Digital signal processing, second edition, Ashok Ambardar, brooks/Cole publishing company, 1999.

b)      Extra references: NA

c)      Electronic sources: NA

d)      Teaching aids: NA

 Date of approval of program specification Date of major program review