2E1AF1 | Signal Processing | Electronics and Applied Physics | S7 | ||||||
---|---|---|---|---|---|---|---|---|---|
Lessons : 15 h | TD : 0 h | TP : 15 h | Project : 0 h | Total : 30 h | |||||
Co-ordinator : Miloud Frikel |
Prerequisite | |
---|---|
Courses of Mathematics of ENSICAEN, Digital Signal Processing | |
Course Objectives | |
The objective of this course is the acquisition and understanding of methods of analysis and signal processing. After a description of different types of signals (deterministic and random), an overview of analytical methods is presented. The primary goal of these methods will be the extraction of information in a variety of problems common in telecommunication applications. All concepts discussed will be justified through a concrete example in the Labs. | |
Syllabus | |
Introduction Definition of random signals and deterministic signals Correlation Analysis Spectral Analysis Modelling Application Examples |
|
Practical work (TD or TP) | |
A set of problems is proposed to better appreciate the contribution of discussed concepts. Those problems are in signal processing in general, and some common problems in telecommunications. We use Simulink, Matlab and DSP. 1. Correlation functions. 2. Experimental estimation of the characteristics of a signal. 3. Encoding / decoding the voice signal. 4. Illustration of the correlation by measuring the speed of sound. 5. Study of the correlation of spreading sequences for CDMA. 6. Modelling of vibration modes. |
|
Acquired skills | |
Master of signal processing techniques. | |
Bibliography | |
J. Proakis (2001). Digital Communications. McGraw Hill S. Haykin (2001). Communication Systems. Wiley. A. Glavieux and Joindot M. (1996). Digital Communications. Masson. J. Proakis, M. Salehi and G. Bauch (2004). Contemporary Communication Systems using Malaba. Thomson Brooks. |
© 2024 - ENSICAEN ( Legal Notices - Credits )