Inventing tomorrow's medical technologies today
Miniaturized, connected medical devices and artificial intelligence are opening up entirely new perspectives in the biomedical field. E-health has become a reality. Everyone is aware of the importance of medical imaging in making a diagnosis. Microtechnologies enable the production of active, implantable medical devices to overcome sensory deficits (ear implants, artificial retinas, etc.) or functional deficits (pacemakers, muscle stimulators, etc.).
Digital technology generates an impressive mass of healthcare data, which can be exploited by artificial intelligence to revolutionize personalized medicine, the discovery of new active molecules, and therefore patient care protocols.
Developing tomorrow's medical technologies therefore requires skills in digital technology, artificial intelligence, microtechnology and an understanding of the challenges facing the healthcare system. The development of these multi-disciplinary skills is the prerogative of the E-health option in the 2nd and 3rd years of the engineering cycle.
Admission
Bac+2
Campus
Toulon
Program Length
3 years (6 semesters)
Targeted degree
Ingénieur
→ RNCP38412
The plus of the training
Combining electronics, digital technology and artificial intelligence to improve health.
Full academic and professional recognition of the Diploma, in France and abroad.
This course is eligible for scholarships covering all or part of the tuition fees.
e-health option program
The engineering cycle consists of 3 years. The 1st year is a turning point in terms of skills acquisition. Here, students prepare for the common core of the engineering cycle, and at the end of the year choose their option.
| Year 4 (ECTS) | Year 5 (ECTS) | |
|---|---|---|
| Artificial intelligence | 5 | - |
| Microcontrollers and interfaces | 5 | - |
| System development | 5 | - |
| IoT systems engineering | 5 | - |
| Technical Project | 10 | - |
| SHES | 6 | 3 |
| English | 4 | 2 |
| Physics and Safety | 5 | - |
| Digital electronics & advanced analog | 5 | - |
| Design analog microelectronics | 5 | - |
| Engineering application internship | 5 | - |
| Microelectronics and manufacturing | - | 5 |
| Systems design & verification | - | 5 |
| On-board electronics | - | 5 |
| Design office | - | 10 |
| Graduation project or professional contract | - | 30 |
98%
insertion rate 5 months after graduation
Pro contract
possible in 5th year (1 year)
The European Credit Transfer and Accumulation System ( ECTS ) is a points system developed by the European Union as part of the Bologna Process and theEuropean Higher Education Area(EHEA). Credits are divided into teaching units (UE).
It aims to make it easier to read and compare study programmes within a country and between different European countries. The ECTS system applies mainly to university education. It is applied in France and has replaced the system of credits (UV) previously used.
What's next?
Trades prepared :
- R&D engineer in e-health
- Medical Reference Engineer
- Health innovation engineer
- Data / image processing engineer
- Medical Device Architect Engineer
- CSO (Chief Scientific Officer) in SME biotech
- Researcher
Sectors of activity
- Medical robotics,
- Data security,
- Connected hospital,
- Bioinformatics,
- Biomedical instrumentation,
- Medical imaging,
- E-health,
- Pharmaceutical
International mobility
This program offers a semester of international study in the 4th year, as well as a double degree with a partner university in the 5th year.
Admission
This program is available after a bac+3, at ISEN, or in parallel admission to candidates from bac+3, university, BUT (GEII, Mesures Physiques réseaux et Télécoms, Informatique), BTS (Systèmes numériques, électrotechnique) or another engineering school.
