Staff: Suvarna. S. Patil Sem: IV Section: B

Sl.NO	Date	Topics to be covered	Remarks
PART-A– Chapter1 Introduction
1		Definitions (S&S), Signal classes(CT/DT, Random/Deterministic)
2		Symmetries– even odd mixed conjugate symmetric – finding parts
3		Capacity to work – Energy/ power – Finding values
4		Periodic / Aperiodic – finding T or N
5		Elementary signals – relations, properties of impulses
6		Operations – vertical, horizontal
7		Combined operations – precedence
8		System as interconnection of operations
9		System classification- linearity, Causality, Memorylessness
10		Time Invariance, Stability, Invertibility
Part A – Chapter2 Time Domain Representation of LTI Systems – 1
11		Convolution
12		Impulse Response Representation – h(n) or h(t)
13		Convolution Sum
14		-DO-
15		Convolution Integral
16		-DO-
Part A –Chapter 3 Time Domain Representation of LTI Systems – 2
17		Properties of Impulse Response Representation
18		Differential (difference) Equations
19		-DO-
20		Solving D.E
21		Block Diagram
22		-DO-
23		Introduction – ZT Importance, Pairs
24		ZT Pairs
25		Properties of ROC
26		-DO-
27		Properties of ZT
28		- DO-
29		Inversion of ZT
30		-DO-
Part B– Chapter 8 Z Transforms – 2
31		Transform Analysis of LTI Systems

32		-DO-
33		UZT
34		UZT use, shifting property
35		Applying UZT to solve DE
36		-DO-
Part A– Chapter 4 Fourier Representation of Signals – 1
37		Introduction
38		CTFS
39		-DO-
40		DTFS
41		-DO-
42		Properties
43		-DO-
Part B– Chapter 5 Fourier Representation of Signals – 2
44		DTFT
45		-DO-
46		CTFT
47		Properties
48		Properties
Part B– Chapter 6 Application of Fourier Transform
49		Introduction
50		Fourier Representation of LTI System
51		FT of Periodic Signals
52		FT for DT Signals

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