International Master degree
Master of Science & Technology In Complex Systems Engineering
olivier.boiron@centrale-marseille.fr
MSc CSE
Pourquoi un diplôme de Master à l’ECM?
- Pas d’offre diplômante en anglais donc pas de possibilité de permettre aux étudiants de nos partenaires internationaux (hors DD) de valider un diplôme à Centrale
- L’idée est donc pour ces étudiants qui viennent habituellement en S8 (2
ièmesemestre de la 2
ièmeannée) de pouvoir suivre un parcours complet de 2 années distinct du diplôme d’ing. centralien.
- L’identité Centralienne est fortement liée à la pluridisciplinarité, l’excellence scientifique, l’ouverture internationale et l’ingénierie du management et de l’organisation. Le Master CSE ambitionne de se positionner sur ces valeurs mais déclinées, comme durant les S8, sur des grands enjeux sociétaux:
- L’environnement
Complex problems (WA IEA2015 & EUR-ACE):
- cannot be solved without in-depth engineering knowledge - Involve wide-ranging or conflicting technical issues
- Have no single and/or obvious solution
2 years program
Taught in english
Multidisciplinary approach
In-depth scientific knowledge Managerial skills
& personal development Lab / industry
placement
Team work Project Based
Learning
A program designed for undergraduate students with a strong background in sciences and or engineering
International master’s programme on Complex Systems Engineering
MSc CSE
The master degree is composed of two indivisible parts:
- The National Master Degree (accredited by the MESR) which consists in the scientific courses of the programme (600hr)
- The Ecole Centrale Diploma to certify the acquirement of the competencies required for the industrial engineering part (soft skills, language, project, …)
International master’s programme on Complex Systems Engineering
The master’s programme is accredited by the french higher education and research ministry (MESR)
Tuition fees 10 000€ / yr
A program designed for undergraduate students with a strong background in sciences and or engineering
MSc CSE
Labellisé par
l’académie
d’excellence
A*Midex en
06/2018
Scientific courses : 168 + 200 + 228 = 596hr Soft skills : 128 + 30 + 100 = 258hr Projects/seminars : 30 + 30 + 100 + 48 = 208hr Language : 24 + 24 + 40 = 88hr
Total M1+M2: 1150hr + internships
Program structure
Propaedeutics In-depth scientific learning Know-how
Aggregation of knowledge / work experience
Environmental Engineering
Engineering for land-use planning
Biomedical Engineering
Systems Modeling & quantitative imaging
Master’s programme
specialized tracks
Goals : training the students to tackle the environmental problems related to climate change:
• Urban warming
• Energy efficiency
• Water management
• Aridity, soil erosion and desertification
• Air pollution
• Green processes and circular economy (Aristotle univ)
• Risk management (Sapienza univ)
And how to relate these problems to spatial planning and to help policy makers.
Environmental Engineering
Engineering for land-use planning
Associated labs & companies
• SEM
• SCP
• IRSTEA
• G2C ALTEREO
• CNRS
• IRSN
• ENGIE
• CEA
• The city of Marseille
Associated international academic institutions
• Sapienza Univ., Roma, IT
• UAT, Thessaloniki, GR
• Cairo Univ., Cairo, AG
Environmental Engineering
Engineering for land-use planning
First semester (S7) – 350hr
Transport phenomena
Computer sciences & Numerical methods Introduction to chemical eng.
Introduction to environmental engineering Hydraulics and hydrology
Energy & environment Geomatics
Language – 24hr
Industrial engineering (Train’Eng) – 128hr Project – 30hr
Lab work – 7 weeks
Total 168hr
Courses, part of the MSc common core Courses for 2E only
Courses from ECM eng. curriculum
Environmental Engineering
(2E)
Source MedTech
Total 200h
Environmental Engineering
(2E)
Second semester (S8) – 300hr
Environmental management
Circular economy & sustainable design Pollutants and water waste
Green chemistry
Environmental monitoring Renewable energies
Language – 40hr Industrial eng. - 30hr Project – 30hr
Lab/industry placement – 8 weeks Courses, part of the MSc common core Courses for 2E only
Courses from ECM eng. curriculum
Languages Industrial eng.
Project
Seminars/ paper club/..
Courses, part of the MSc common core Courses for 2E only
Courses from ECM eng. curriculum
Environmental Engineering
(2E)
Second semester (S9) – 500hr
Energy efficiency Coastal engineering
Advanced Fluid Mechanics Bioprocess
Water management
Geophysical flows & global change awareness
Geographical economics and territory efficiency
Computer Sciences & data sciences
Elective course from ECM S9 Risk management (Sapienza U.)
Life cycle assessment & Circular economy
(Aristotle U.)
Goals : giving to the students the fundamental knowledge and the know- how to address during their professional career the complexity of the future challenges of biomedical engineering:
• Material science for BME
• Bioinformatics
• Multiphysics and multiscale modeling
• Imaging devices & signal and image processing
• Biostatistics
• Machine learning
• Biotechnologies & chemical therapy
Biomedical Engineering
Systems Modeling & quantitative imaging
Source MedTech
First semester (S7) – 350hr
Transport phenomena
Computer sciences & Numerical methods Introduction to clinical medecine
Introduction to material science
Introduction to biomed. signal processing Engineering & biological systems
Waves propagation
Language – 24hr
Industrial eng. (Train’Eng)- 128hr Project – 30hr
Lab work - 7 weeks (max)
Total 168hr
Biomedical Engineering
Systems Modeling & quantitative imaging
Courses, part of the MSc common core Courses for 2E only
Courses from ECM eng. curriculum
Second semester (S8) – 300hr
UE1 The living brick
UE2 Imaging and wave therapy
UE3 Biotechnologies and chemical therapies UE4 Projects and labs & companies visits
Languages 40hr
Industrial eng. (Train’eng 1week) – 30hr Project – 30hr
Total 200hr
Biomedical Engineering
Systems Modeling & quantitative imaging
Courses, part of the MSc common core Courses for 2E only
Courses from ECM eng. curriculum
Languages (FLE/English) 24hr Industrial eng. (3A) 170hr Project – Lab work 100hr
Biomedical Engineering
Systems Modeling & quantitative imaging
Courses, part of the MSc common core Courses for 2E only
Courses from ECM eng. curriculum
Third semester (S9) – 500hr
Computer Sciences & data sciences Advanced imaging
Biomechanics
Integrated design of biomedical systems Advanced image processing
Numerical modeling for BME Advanced material sciences Sensors & biomedical monitoring Elective course from ECM S9 Orthopaedics
Electron microscopy
Source MedTech
Thank You
For Your Attention!