The main aim of this lecture is to make students understand fundamentals of physical layers of electronic communication systems. Especially, students are expected to learn principles of some modulation and demodulation schemes and to understand how these schemes are applied to real communication systems.
At the end of this course, students will be able to:
1) regard channels as abstract mathematical models,
2) explain how modulation schemes transform baseband signals into bandpass signals,
3) explain how demodulation schemes derive baseband signals from bandpass signals.
baseband signal, bandpass signal, amplitude modulation, frequency modulation, phase modulation, coherent detection, non-coherent detection, sampling theorem, digital modulation
✔ Specialist skills | Intercultural skills | Communication skills | Critical thinking skills | Practical and/or problem-solving skills |
Students are provided with exercise problems about items explained in each class.
Course schedule | Required learning | |
---|---|---|
Class 1 | Overview of electronic communication systems | Learn an overview of electronic communication systems. |
Class 2 | Fourier transform and equivalent lowpass representation | Review Fourier transform and understand the equivalent lowpass representation. |
Class 3 | Stochastic process I | Review probability distributions and probability density functions. |
Class 4 | Stochastic process II | Understand stochastic processes and their bandpass signals. |
Class 5 | Baseband digital transmission I | Learn the sampling and coding. |
Class 6 | Baseband digital transmission II | Understand pulse transmissions. |
Class 7 | Modulation and demodulation | Undersatand principles of modulation and demodulation schemes. |
Class 8 | Review of the first half and midterm exam | Check whether examinees understand contents of the first half. |
Class 9 | Amplitude modulation | Understand the amplitude modulation. |
Class 10 | Quadrature amplitude modulation | Understand the quadrature amplitude modulation. |
Class 11 | Frequency modulation and phase modulation | Understand the frequency modulation and phase modulation. |
Class 12 | Digital modulation | Understand the digital modulation. |
Class 13 | Optimal filter for pulse waveforms | Understand the optimal filter for pulse waveforms. |
Class 14 | Extension of modulation and demodulation schemes | Understand the extension of modulation and demodulation schemes. |
Class 15 | Digital communication systems | Deeply understand digital communication systems. |
None.
Hiroshi Suzuki, Fundamentals of Digital Communications, Science Inc., 2012.
Student achievements are assessed based on some reports (20%) besides the midterm and final exams (80%).
None