[Under Construction]

Chapter 2

bulletSection 2.1
bulletSection 2.2
bulletSection 2.3
bulletSection 2.4
bulletSection 2.5 - Only definition of difference equations then solve using Fourier or z-Transform methods covered later
bulletSection 2.6
bulletSection 2.7
bulletSection 2.8
bulletSection 2.9
bulletSection 2.10 - Only Equations (2.195) and (2.204) and how to use them

Chapter 3

bulletSection 3.1 - Only the definition of z-Transform and ROC and how to do it based on z-Transform Tables)
bulletSection 3.3 - Only inspection and partial fraction methods

Chapter 4

bulletSection 4.1
bulletSection 4.2
bulletSection 4.3
bulletSection 4.4 (exclude 4.4.2)
bulletSection 4.5 
bulletSection 4.8

Chapter 7

bulletSection 7.0 (specifications for discrete-time filters)
bulletSection 7.1 (Impulse invariance and bilinear transformation methods)
bulletSection 7.2 (windowing method for FIR filter design)
bulletSection 7.3 (formulation of optimal design of FIR filters)
bulletAll designs discussed in the Matlab code are VERY IMPORTANT.

Chapter 8

bulletSection 8.1
bulletSection 8.5
bulletSection 8.6
bulletSection 8.7
bulletSection 8.8 (Only definition of DCT)

Chapter 9

bulletSection 9.3

Chapter 10

bulletSection 10.1
bulletSection 10.2
bulletSection 10.3 (exclude 10.3.2)
bulletSection 10.4 (Only spectrogram display example)
bulletSection 10.6 (Only definition of periodogram and its averaging using DFT)

Chapter 11

bulletSection 11.4 (Hilbert transform for discrete sequences)

 

horizontal rule

bulletChapter 11: Linear Prediction (Handout)

 

 

 

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Last modified: February 14, 2012