Upload
azrul-nizar
View
212
Download
0
Embed Size (px)
DESCRIPTION
teaching plan UTeM
Citation preview
7.DetailSyllabusandDeliveryPlanning DateModified:
Note: 1. Tutorial sessions (1h): 4 to 6 weeks throughout the semester
2. Test 1 (Week 6-8); Test 2 (Week 10-12) 18/02/2013
Week Contents Ref.
Chapter1:IntroductiontoSignalsandSystems
Introduction to signal and system, basic concept of signal and system
Classification of signal
Continuous-time (CT) and Discrete-time (DT), Periodic, Aperiodic, Even
and Odd Signals
Singularity Funtion
Unit Step, Ramp and Exponential
Basic Operation on Signal for CT and DT signals.
Representation of Signal
Basic System Properties
Chapter2:LinearTime-InvariantSystem
Defination of LTI System
Convolution Integral
Convolution Sum
Properties of LTI System
Chapter3:FourierSeriesRepresentationofPeriodicSignals
Continous Time Fourier Series
Discrete Time Fourier Series
Filtering & Examples of CT and DT Filters
Chapter4:TheContinuous-TimeFourierTransform
Representation of aperiodic Signal: The CT Fourier Transform
Properties of the Continuous-Time Fourier Transform
of CT Fourier Transform
Chapter4:TheDiscrete-TimeFourierTransform
Discrete-TimeFourier Transform;
Properties of the Discrete-Time Fourier Transform;
Systems Characterized by Linear Constant-Coefficient Difference Equations
Chapter5:Z-Transform
The Z-Transform;
The region of Convergence for Z-Transform
The Inverse Z-Transform
Properties of Z-Transform
Analysis & Characterization of LTI Systems Using Z-Transforms
REVISIONWEEK
EXAMINATIONWEEK
1
2
3
4
5
6
Systems Characterized by Linear Conatant-Coefficient Differential Equations
12
13
14
7
MIDSEMESTERBREAK
8
9
10
11