| Week | Instructor's schedule (TOPICS) |
|---|---|
| Week 1 | Introduction to Signals |
| Week 2 | Introduction to Signals |
| Week 3 | Time-Domain Representations for Linear Time-Invariant Systems (I) |
| Week 4 | Time-Domain Representations for Linear Time-Invariant Systems (II) |
| Week 5 | Fourier Representations for Signals and Linear Time-Invariant Systems (I) |
| Week 6 | Fourier Representations for Signals and Linear Time-Invariant Systems (II) |
| Week 7 | Applications of Fourier Representations and Mixed Signal Classes (I) |
| Week 8 | Applications of Fourier Representations and Mixed Signal Classes (II) |
| Week 9 | 期中考 |
| Week 10 | Application to Communication Systems |
| Week 11 | Representation of Signals Using Continuous-Time Complex Exponentials: The Laplace Transform (I) |
| Week 12 | Representation of Signals Using Continuous-Time Complex Exponentials: The Laplace Transform (II) |
| Week 13 | Representation of Signals Using Discrete-Time Complex Exponentials: the z-Transform (I) |
| Week 14 | Representation of Signals Using Discrete-Time Complex Exponentials: the z-Transform (II) |
| Week 15 | Application to Filters And Equalizers (Introduction) |
| Week 16 | Application to Feedback Systems (Introduction) |
| Week 17 | Epilogue (Introduction) |
| Week 18 | 期末考 |