Adossée au département de Mécanique Avancée, la filière Mécanique et Productique dispense une formation polyvalente axée autour de la fabrication, matériaux, mécanique, conception, gestion, etc.
La formation est dispensée sous forme de cours magistraux, travaux dirigés (TD) et travaux pratiques (TP), projets module et sanctionnés par un PFE au dernier semestre. Les TP sont assurés moyennant des outils de commande numérique, simulation, Dessin, Conception et Fabrication Assistés par Ordinateur : DAO, CAO, CFAO appliqués au fraisage, tournage, usinage, fabrication, etc.
La filière propose des doubles diplômes ingénieur et master avec :
Adossée au département de Mécanique Avancée, la filière Mécanique et Productique dispense une formation polyvalente axée autour de la fabrication, matériaux, mécanique, conception, gestion, etc.
Elle permet de former des Ingénieurs R&D, ingénieurs en conception, chefs de projet, ingénieurs méthodes et industrialisation, ingénieurs qualité, ingénieurs de production, ingénieurs conseil, consultants, etc.
Les secteurs d’activités sont les métiers de l’industrie automobile, aéronautique, spatial, transport, électroménager ; notamment les techniques, méthodes, processus et gestion de production. La formation est dispensée sous forme de cours magistraux, travaux dirigés (TD) et travaux pratiques (TP), projets module et sanctionnés par un PFE au dernier semestre. Les TP sont assurés moyennant des outils de commande numérique, simulation, Dessin, Conception et Fabrication Assistés par Ordinateur : DAO, CAO, CFAO appliqués au fraisage, tournage, usinage, fabrication, etc.
Attached to the Advanced Mechanics department, the Mechatronics program offers a versatile education focused on mechanics, electronics, and computer science.
The program is delivered through lectures, tutorials (TD), practical work (TP), module projects, and culminates with a final year project (PFE) in the last semester.
Practical work and projects are conducted using digital chains (3D scanning & printing and processing), mechanical characterization laboratories, robotics, power transmission, prototyping, layered design (stratoconception), and more.
Thanks to the Mechatronics program, the department offers double engineering and master’s degrees with:
Supported by the Industrial Electronics department, the Industrial Electronics (IE) program trains versatile engineers capable of designing, developing, and integrating complex embedded electronic systems to meet the growing needs of industry. This training aims to strengthen their skills in hardware, software, and industrial control.
At the end of the training, graduates of the Industrial Electronics program will be able to:
The IE program is delivered through lectures, tutorials (TD), practical work (TP), module and semester projects, and concludes with a final year project (PFE) in the last semester. It covers a wide range of subjects focused on industrial electronics, such as electronics, microelectronics, industrial computing, electrical systems, industrial control, signal processing, and telecommunications. Cross-disciplinary courses complement this foundation to foster adaptability and interdisciplinarity in future engineers.
During the first two years, all students follow a common core curriculum. In the third year, they can choose between two options:
This option allows students to acquire strong skills in industrial automation, machine control, and renewable energies.
Through this option, students develop in-depth skills in designing, developing, and integrating embedded systems, addressing both hardware and software aspects.
Students in the Industrial Electronics program benefit from numerous opportunities, including double degrees and exchange programs, notably with:
In France: ESIGELEC in Rouen, ESISAR of Grenoble INP, ENSIP in Poitiers
In Germany: Deggendorf Institute of Technology.
Supported by the Industrial Computing department, the Applied Computing (AC) program offers a versatile education focused on computing, automation, robotics, and communications.
The training includes lectures, tutorials (TD), practical work (TP), module projects, and concludes with a final project (PFE) in the last semester. Practical sessions and projects are carried out using various equipment and labs in computing, signal transmission, communications, robotics, PLCs, embedded systems, control, electronics, etc.
This program offers double degree opportunities (engineering and master) with renowned partner institutions:
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