Master of Networks and Telecommunications

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 the functions performed in advanced digital communication systems

 IP Routing : Functions used to determine the best path in a mesh network to a destination identified by an IP network address

Propagation and Antennas : Study of the propagation medium of electromagnetic waves at ground level and in the atmosphere (troposphere, stratosphere, and ionosphere)

Advanced Signal Processing : Basic concepts for understanding and applying signal processing methods for random signals and digital filters

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

IP Routing Lab : Practical application of different routing configurations

Advanced Signal Processing Lab : Labs conducted in MATLAB to provide a practical approach to complex theoretical concepts

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

Linux System : Gain an understanding of the use and customization of a GNU/Linux system

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

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

Semester 2

 Network Services Administration : Acquire the knowledge and skills necessary for the operation, administration, maintenance, and monitoring of computer networks

DSP and FPGA: Master the design flow and perform algorithm-architecture matching for the implementation of algorithms on DSP-based platforms

Transmission Channels and Optical Components : Study of wave propagation in guided media such as transmission lines and optical fibers, with particular attention to passive and active optical components and their applications in telecommunications networks

Coding and Compression : Become familiar with data coding and compression techniques such as channel coding, source coding, and image compression

 Network Services Administration Lab : Have the tools and skills to administer a network and, consequently, will be able to install and configure servers for a given network service (under Linux and/or Windows Server)

DSP-FPGA Practicals : Master the CCS (Code Composer Studio) tool for developing applications on a DSP-based platform Design an electronic system using the VHDL description language and test each design on the FPGA

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

High-Speed ​​Networks : Provide a comprehensive overview of high-speed transport technologies, WAN architectures, and tunneling techniques to understand their role in modern network infrastructures

Image and Video Data Representation : Introduction to the basics of image and video data representation and processing.

Satellite Networks : Provide a general overview of the main characteristics of satellite networks, their architectures, and configurations

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

Cryptography and Network Security : Presentation and study of network security mechanisms

 Video and Audio over IP : Acquire the tools and information sources needed to understand the protocols governing video and audio over IP

 Web Technologies : Discover the content and content of a web page that presents information on the Internet. Discover the basics of how the client-server model works. Write and modify web pages in a standardized content description language

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

 Cryptography and Network Security Practical Work : Presentation, study, and programming of network security mechanisms Mastery of cryptographic tools and secure protocols. Ability to deploy security solutions (encryption, VPN, IDS)

 Web Technologies Practicals : Write and modify web pages in a standardized content description language. Students will also be introduced to the components and mechanisms of multimedia, and will analyze and track the various elements of multimedia data chains

Artificial Intelligence : Master the use of machine learning techniques for data classification and prediction on a telecommunications network

Internet of Things : Acquire the basics of IoT architecture, equipment, protocols, and platforms, as well as data collection, storage, and processing

Field Networks : Discover field networks or field buses based on the connection of multiple entities of the same system to the same communication medium, for example, in a limited geographical area (factory, workshop, automotive, embedded electronics, etc.), taking into account the reduction or expansion of the network in real time

Documentary 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 you have done in a rigorous and 

Advanced Topics

Semester 4

Research and innovation projects

 Projects in collaboration with partners

 Professional internship and final dissertation

Research project abroad (joint supervision)

educational manner