Master in Telecommunication Systems

Core Courses

This two-year course covers a wide range of areas, from telecommunications systems and networks (design, deployment, etc.) to digital communication technologies, including signal processing and data management.

Semester 1

Advanced Digital Communications : Identification of functions used in advanced digital communication systems.

Random Signals and Stochastic Processes : Signal processing methods related to random signals and stochastic processes.

Radiocommunication : Behavior of radio waves at ground level, in the atmosphere (troposphere, stratosphere, and ionosphere), and on satellite links.

FPGA Programmable Circuits : Design and programming methods using hardware description languages.

Advanced Digital Communications Lab : Simulation of a digital communication chain in MATLAB (Simulink).

Random Signals and Stochastic Processes Lab : Simulation in MATLAB to give a practical aspect to complex theoretical concepts.

FPGA Programmable Circuits Lab : Design an electronic system using the VHDL description language and test each design on the FPGA.

Object-Oriented Programming in Python : Basic foundations of object-oriented programming as well as mastery of advanced program design techniques in Python.

Standards and Protocols : Various standards and protocols used in the networking world.

Electromagnetic Compatibility : Principles that allow electrical and electronic devices to function properly in the presence of other equipment without disrupting their operation.

Technical English and Terminology : Technical vocabulary allows students to conduct a conversation in English in a scientific setting.

Semester 2

Digital Signal Processing : Fundamentals of digital signal processing (digital signal filtering techniques and some of their applications).

Antennas : Radiation of the electric dipole and antennas, uniform and non-uniform antenna arrays, as well as antenna curtains, radiating apertures (rectangular and circular), and planar antennas.

Transmission Lines and Waveguides : Principles of wave propagation in transmission lines and waveguides, as well as their adaptations.

Coding and Compression : Data coding and compression techniques (channel coding, source coding, and image compression), as well as the advantages and disadvantages of different compression techniques and their selection criteria.

Digital Signal Processing Lab : Digital signals through implementation, programming, and analysis, as well as common digital processing techniques such as digital filtering and data denoising.

Antennas, Transmission Lines, and Waveguides Lab : Use of dedicated microwave software for simulating radiating structures.

Coding and Compression Lab : Data coding and compression techniques (channel coding, source coding, and image compression).

Image Processing : Concepts of image capture and digitization. Understand the different parameters and formats of digital images. Master the basics of image analysis. Learn to use preliminary tools in low-level digital image processing with an introduction to high-level processing.

Embedded Systems and Telecommunications : Combines two autonomous systems: an electronic and computer system known as an embedded system.

Radar Techniques : Advanced concepts in decision and detection theory, as well as information processing.

Respect for standards and rules of ethics and integrity : Develop student awareness of respect for ethical principles and rules that govern life at university and in the world of work.

Semester 3

Wireless and Mobile Networks : Wireless networks (WiFi and WiMAX) and 3G, 4G, and 5G mobile radios and beyond.

Optical Communications : Design and analysis of optical communication systems, particularly fiber optic transmissions.

Multimedia Technology and Protocols : Various multimedia protocols, as well as associated technologies and applications.

RF and Microwave Devices (Passive/Active) : Basic concepts and an introduction to the tools needed to design various RF or microwave circuits (passive and active).

Wireless and Mobile Networks Lab : Simulation of various wireless and mobile transmission techniques and testing of the various corresponding networks.

Optical Communications Lab : Functional description of fiber optic communication chains, with an emphasis on the main limitations introduced by the various optical components (fiber, laser source, optical amplifier, etc.).

RF and Microwave Devices (Passive/Active) Practicals : Concepts related to RF and microwave devices (planar lines, matched load, fixed and variable attenuator, phase shifter, coupler, circulator, filter and resonant cavity, Schottky diodes, PIN, diode detector, amplifier, mixer, etc.) using measurement benches, network analyzers, and simulation tools such as Advanced Design System (ADS).

Digital Television : Principles of digital television (image transmission and processing) and its applications, as well as the concepts of digital compression and coding.

Space Telecommunications : The main characteristics of satellite communications systems in general.

Radio Navigation Systems : The main characteristics of satellite radio navigation systems in general, their applications, advantages, and disadvantages.

Document Research and Dissertation Design : Tools needed to search for useful information to better exploit it in your final-year project. The objective here is to present the work carried out in a rigorous and educational manner.

Advanced Topics

Semester 4

Research and innovation projects

Projects in collaboration with partners

Professional internship and final dissertation

Research project abroad (joint supervision).