Diplôme d'Ingénieur - Domaine Physique, signal et communications - Spécialité Electrical and Optical Engineering - Télécom SudParis
| Niveau d’études visé | Bac +5 |
|---|---|
| Durée de la formation en année | 5 ans |
| Statut de l’école | Non renseigné |
| Formation reconnue par l’État | Oui |
| Rythme de formation | Temps plein |
| Modalité | En présentiel |
| Prix | Non renseigné |
Description
En Anglais.
Industry, as well as research and development, is seeking for high level students with
both large knowledge and specialised skills. This present wireless and optics major
has been designed in response to this demand.
The goal of this program is to give high level skills to students in order to allow them
to join engineering and development departments of leading companies or research
teams, in the microwave and photonics fields. The courses are designed to develop
original thinking and anticipating capabilities for each student. Thus, a large part of
the program is based on multidisciplinary application fields such as communications,
sensors, defence and space, automotive and information technology.
Wireless systems and optics are present in many branches of industries, and are
embedded in almost all modern systems. There is a stronger and stronger trend of
fusion between these two technologies. Taking the multimedia domain as an example,
the complementary nature of photonics (for display technologies, imaging systems or
optical data storage), electronics (for communications and control) and signal
processing is obvious. Thus, when an economical industrial sector, such as the
automotive one, is looking towards multimedia systems, it opens a wide opportunity
to the domains dealt with in the EOE program.
Furthermore, as opto-electronics for telecommunications has reached a more-thandemand level, the R&D efforts remain great, but interestingly observed in the fields
such as the defence, space and industry sectors. All these R&D activities need a
comprehensive understanding of a large panel of application fields.
Thématiques abordées
- Physique appliquée aux systèmes électriques et optiques : électromagnétisme, propagation des ondes, optique guidée
- Traitement du signal et communication numérique : modulation, codage, transmission et réception du signal
- Dispositifs électroniques et optoélectroniques : semiconducteurs, lasers, photodétecteurs
- Réseaux de télécommunications : principes, architectures, protocoles et technologies récentes
- Projet d’ingénierie intégrée : conception, simulation et réalisation de systèmes électriques et optiques complexes
Objectifs de la formation
- Maîtriser les principes avancés de la physique appliquée aux signaux et aux systèmes de communication
- Concevoir, modéliser et optimiser des systèmes optiques et électroniques pour les réseaux de communication
- Appliquer les techniques de traitement du signal pour améliorer la qualité et la fiabilité des communications
- Développer des compétences pratiques en instrumentation et en analyse expérimentale dans les domaines électrique et optique
- Intégrer des solutions innovantes en ingénierie électrique et optique dans des contextes industriels et de recherche
Points forts
The Electrical and Optical Engineering program is part of the Advanced Engineering
Cycle which covers the 8
th
and 9
th
semesters of the TELECOM SudParis curriculum.
It is made up of 6 autonomous and coherent teaching units planned during S8 and S9
semesters which define a complete and coherent graduate programme in electrical
and optical engineering. (Each teaching unit represents for the student a workload of
90 hours with at most 45h being done in face to face, the rest consisting in personal
work).
During the S9 Semester, a team project (PHY5005) will allow students to gain an
in-depth expertise on one of the main scientific axes presented in these Uvs.
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