![[Under Construction]](images/undercon.gif){kind=small}
Chapter 2
 | Section 2.1 |
| Section 2.2 |
| Section 2.3 |
| Section 2.4 |
| Section 2.5 - Only definition of difference equations then solve using Fourier or z-Transform methods covered later |
| Section 2.6 |
| Section 2.7 |
| Section 2.8 |
| Section 2.9 |
| Section 2.10 - Only Equations (2.195) and (2.204) and how to use them |
Chapter 3
| Section 3.1 - Only the definition of z-Transform and ROC and how to do it based on z-Transform Tables) |
| Section 3.3 - Only inspection and partial fraction methods |
Chapter 4
| Section 4.1 |
| Section 4.2 |
| Section 4.3 |
| Section 4.4 (exclude 4.4.2) |
| Section 4.5 |
| Section 4.8 |
Chapter 7
| Section 7.0 (specifications for discrete-time filters) |
| Section 7.1 (Impulse invariance and bilinear transformation methods) |
| Section 7.2 (windowing method for FIR filter design) |
| Section 7.3 (formulation of optimal design of FIR filters) |
| All designs discussed in the Matlab code are VERY IMPORTANT. |
Chapter 8
| Section 8.1 |
| Section 8.5 |
| Section 8.6 |
| Section 8.7 |
| Section 8.8 (Only definition of DCT) |
Chapter 9
| Section 9.3 |
Chapter 10
| Section 10.1 |
| Section 10.2 |
| Section 10.3 (exclude 10.3.2) |
| Section 10.4 (Only spectrogram display example) |
| Section 10.6 (Only definition of periodogram and its averaging using DFT) |
Chapter 11
| Section 11.4 (Hilbert transform for discrete sequences) |
| Chapter 11: Linear Prediction (Handout) |