ACS 513 - DIGITAL SIGNAL PROCESSING

Distance Education

Spring 2003

 

 

 

 

Course Outline

 

·         Discrete signals and systems

o        Discrete-time representation of signals

o        Discrete-time system properties

o        Linear time invariant systems

·         Introduction to Matlab

·         Sampling

o        Sampling of continuous-time signals

o        Nyquist theory

o        Aliasing

o        Practical considerations in analog-to-digital conversion

·         Frequency-domain representation of discrete signals and systems

·         Discrete-time Fourier transform

·         Frequency response of discrete systems

·         Z-transform

o        Computation of the Z-transform

o        Z-transform properties

o        Relationship between Z-transform and Discrete-time Fourier transform

o        Inverse Z-transform

·         Discrete Fourier transform (DFT)

o        Computation of the DFT

o        Fast Fourier Transform (FFT) computation

o        DFT properties

o        Convolution implementation using the DFT

·         DFT analysis of narrowband signals

o        Effects of windowing

o        Resolution

o        Processing gain

·         DFT analysis of broadband signals

o        Periodograms

o        Power spectrum analysis

o        Analysis of time-varying signals

o        Spectrogram analysis

o        Coherence

o        Transfer function analysis

·         Digital filter design

o        Ideal filter types

o        System structures

o        FIR filter design

o        Linear phase filters

o        IIR filter design

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Course Schedule:

 

 

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Homework Assignments

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Lecture Notes

Discrete Signals (250 kB)

Discrete Systems (460 kB)

Matlab Primer (20 kB)

Discrete-time Fourier Transform (300 kB)

 

 

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Other Notes

Course Syllabus (11 kB)

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