MSc in Telecommunications and Electrical Engineering
ObjectifsThe goal of this M.Sc degree is to provide a postgraduate research program focusing on the physical and processing aspects of communication technologies. It offers a broad choice of topics including design of communication systems, complex integrated circuits targeting communications, presentation of optical communications, or mobile digital communications. This Master opens the way towards PhD studies in internationally recognized research laboratories.
Dirigé àThis programme is aimed at graduates with a Bachelor of Science or equivalent degree obtained after 4 years’ higher education in one of the domains taught at TELECOM Bretagne. This programme is for high-level international students.
DiplômeMSc in Telecommunications and Electrical Engineering
ContenuFirst semester: Core courses
in English
n Signal processing
n Components
n Computer Science
n Networks
n Mathematics
n Intensive French language courses
Second semester
Choice of two topics among
n Statistical Signal Processing and
Digital Communications
– Stochastic processes, statistical
signal theory, digital
communications, speech and
image processing, mobile
communications
n Electronics, Microwave and Optics
– Components for electronics,
Analog IC design, Optical devices,
Digital Electronic, Communication
system design, Architecture of
electronic systems
n Telecommunication networks
– Telecommunication networks,
IP network, Mobile networks
Lectures are partially taught in
English.
Third semester
Courses are totally run in French
Choice of five specialized fields:
n Signal, Telecommunication and
Image Processing
– Detection-estimation, Markov-
Kalman, optimization, fusion and
classification, image processing,
pattern recognition, spectrum
analysis and wavelets, Digital
communications and coding,
array processing, speech
processing
n Microtechnology, architecture
and Integrated circuits for
telecommunications
– Electronic technology,
Optimization and Circuit design,
Constraints, Digital architecture,
Algorithms and languages
n Signal processing and circuit design
– Models, detection and estimation,
Integrated circuit electronics,
digital communications and
equalization, non-stationary signal
analysis, image processing and
pattern recognition, computer
science applied to signal
processing
n Photonics and optical
communications
– Optical communication system,
nanostructures, integrated optics
and nonlinear optics, optical
spatial processing, architecture for
optical communications
n Materials and microwave devices
– Architecture of telecommunication
systems, passive and active
devices, materials for microwave
systems, electromagnetic models,
electromagnetic compatibility,
antennas.
Fourth Semester
This semester is spent performing
a research project in an industrial
or university R&D laboratory