This course provides students with a foundational understanding of the principles of electromagnetic wave propagation and the mechanisms of Hertzian propagation. Students will learn to calculate various parameters related to antennas, exploring how different configurations affect propagation. The course emphasizes both theoretical concepts and practical applications in telecommunications, equipping students with essential knowledge for analyzing and designing communication systems.

This module enables students to understand the different types of electronic components, such as power supplies, active power components, optoelectronic devices, and logic integrated circuits. It covers their characteristics and practical applications, providing a solid foundation for designing efficient circuits tailored to the specific needs of electronic systems.

1___ Introduce students to the world of telecommunications by teaching them the basic concepts of traditional and emerging local computer networks.
             ----------------------------------------------------------------------
2___ Learning the specific constraints of local area networks.
             ----------------------------------------------------------------------
3___ Choose a local area network and associated equipment.
             ----------------------------------------------------------------------
4___ Size, install, configure and diagnose a local area network.

The objective of this subject is to acquire the basic theoretical knowledge of various electronic functions necessary for designing and implementing a transmission system. Topics such as analog filters, amplitude, frequency, and phase modulation and demodulation, phase-locked loops (PLLs), etc., are covered.

Signal Processing course introduces key digital techniques like spectral analysis and filtering. Students will review signal theory, signal sampling, discrete transforms, analog filters, and explore random processes.