178 355 Discrete Time Signal Processing (2/2005)

	Credit: 3(3-0-3)	
	Date and Time:
		Section 1: 	TuTh 	10.30-12.00 EN 4510
	Instructor:
		Nawapak Eua-anant        	Office: EN4113
		nawapak@.kku.ac.th	 	Tel: 2153 Ext 109, 043-362160 Ext. 109
	Course Outline:
		1. Introduction to DSP

			 Nov1: Introduction, Types of signals

			Advantages of DSP over analog systems
		2.  Discrete time signals and systems

	     		Nov 3: Discrete Time Signals

			Type of discrete time signals

			Nov 8: Discrete Time Systems

			Types of discrete time systems

			Nov 10: LTI systems, Convolution sum

			Nov 15: Solving Difference Equations

			Nov 17: Correlation, Implementation of LTI systems

			Homework 1:

		3.  Z-transform

			Nov 17: introduction to Z-transform, 

			Nov 22: Direct formula, ROC, properties

				Pole location and Time domain behavior

			Nov 24: Inverse z-transform

			Nov 29: One side z-transform, solving DE

			Homework 2:
		4.   Frequency analysis and sampling theorem

			Dec 1: FT and Sampling theorem

			Dec 6: Frequency analysis of signals: FS,FT, DTFS

			Dec 8: Frequency analysis of signals: DTFT, Analog signal reconstruction

			Dec 13: DTFT properties, relation with z-transform

			Dec 15: Frequency domain characteristics of LTI systems

			Homework 3:

		5. Discrete Fourier Transform

			Dec 20: DFT and its properties

			Jan 3: DFT Application: frequency analysis application and  linear filtering,

		6. Fast Fourier Transform

			Jan 5: Divide and conquer approach 

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		Midterm Examination (25%) Jan ,2006. 18.00-21.00 EN 4101 

		Chapter 1-4:	

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			Jan 10: Radix 2 FFT algorithm

		7. Implementation of discrete time systems (Skip)

		8. Design of Digital Filters

			Jan 12: Design of FIR filters:

			Jan 17: Design of FIR filters:

			Jan 19: Design of IIR filters

			Jan 24: Design of IIR filters

		9. DSP Applications

			Jan 31:

			Feb 2: 

			Feb 7:

			Feb 9:

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		Term Project Presentation (20%) Mar , 2006.  EN 4101 

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		Final Examination (25%) Mar , 2006 EN 4101 

		Chapter 5-9:	

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	Assessment: Syllabus
		Attendance                                     5%
		Homework                                     25 %

		Miniproject			20 %
		Midterm Examination                   	25 %
		Final examination                         	25 %

	Grading (tentative):
		85-100%=A, 80-85%=B+, 75-80%=B, 70-75%=C+,
		65-70%=C, 60-65%=D+, 50-60%=D, 0-50%=F

	References:
	1. John G. Proakis and Dimitris G. Manolakis,"Digital signal Processing," Prentice Hall, 3rd Edition, 

                 1996.

	2.  Alan V. Oppenheim and Ronal W. Shafer, Discrete-Time Signal Processing, Prentice Hall, 1989.

	3. Sanjit K. Mitra, Digital Signal Processing: A Computer Based Approach, McGraw-Hill, 3rd Edition,

	    2006