Master's degree Information systems technologies
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- Campus Marne la Vallée - Champs sur Marne, Ecole Nationale des Sciences Géographiques (ENSG)
- Ecole Nationale des Sciences Géographiques (ENSG)6/8 avenue Blaise Pascal
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Entry requirements
Students studying a Master’s in science (physics, geomatics, computer science, etc.).
Master’s students in geography, agronomy, spatial planning, etc. with skills in image processing, data analysis, GIS and / or computer science, and wishing to specialize in remote sensing and spatial analysis.
Benefits of the program
This programme addresses identified needs in the field of geomatics, in particular thanks to the “Skills and Trades” survey conducted in 2013 by the French Association for Geographic Information, the GeoRezo network and the MAGIS Geomatics Research Group at CNRS. Students are therefore perfectly prepared for the professional world.
Acquired skills
This Master’s provides training in spatial remote sensing and geographic data analysis. It trains geomaticians capable of designing and implementing methods aimed at structuring, analysing and visualising vector geographic information and images (optical and radar), to make it possible to study phenomena with a spatial component.
Capacities
20
Course venue
Other course venue
Ecole Nationale des Sciences Géographiques (ENSG)6/8 avenue Blaise Pascal
Your future career
This Master’s is oriented towards both research and industry. Graduates seeking direct employment can apply for jobs such as research engineer, project manager in a company (digital geography, geomatics, geophysical prospecting, environment, defence, design offices or local administrations). They can also pursue further studies with a PhD, going on to work in higher education or public/semi-public research bodies, such as CNRS, IGN, CNES, IPG, IRD, IRSTEA, INRA or INRIA in France, or other research bodies overseas.
Professional integration
Examples of jobs:
- Engineer (development, instrumentation, research, etc.), project manager, information systems consultant.
Examples of PhD dissertations:
Contribution of Polarimetric Radar Data for the Cartography of Vegetation in Tropical Environments (UPEM / ONFI)
- Identification and Monitoring of Poplar Plantations with Hypertemporal Remote Sensing (DYNAFOR)
- Qualification and Interoperability of Standards (LaSTIG - IGN)
- Characterisation of Inter-Seismic Tectonic Deformations of the Island of Taiwan Using Radar Interferometry (LaSTIG - UPEM)
- Cartographic Factories and Urban Factories: Volatile Geographical Information Potential for Efficient and Inclusive Development in Disadvantaged Neighbourhoods of Cities in the Global South.
- Development of Geographical Indicators to Contribute to the Evaluation of City Policies.
- Integration of Major Urban Transport Infrastructure in the City Through Roofing Works. Assessment and Decision-Making Tools.
Study objectives
This Master’s provides training in spatial remote sensing and geographic data analysis. It trains geomaticians capable of designing and implementing methods aimed at structuring, analysing and visualising vector geographic information and images (optical and radar), to make it possible to study phenomena with a spatial component.
Major thematics of study
Image processing, measurement physics, geographic vector information, geometric analysis, spatio-temporal dynamics.
Calendar
Four to six-month work placement between 1 April and 30 September.
Semester 3
Courses | ECTS | CM | TD | TP |
---|---|---|---|---|
PROJECT MANAGEMENT, DEVELOPMENT TECHNOLOGIES, AGILE METHODS
| 4 | |||
gestion de projet informatique
Connaître et appliquer les méthodes de gestion de projet informatique
Teaching language FRANÇAIS / FRENCH | 9h | 9h | ||
technique de développement de projet, management de projet
Savoir pratiquer l’intégration continue, la diffusion continue, le déploiement et tests (unitaires, fonctionnels, de non régression)
Teaching language FRANÇAIS / FRENCH | 12h | 3h | ||
méthodes agiles
Connaître et mettre en œuvre la méthode SCRUM
Teaching language FRANÇAIS / FRENCH | 9h | 6h | ||
GEOMATIC PROJECT
To apply project management methods to a geomatic project | 5 | 120h | ||
IS ARCHITECTURE AND SECURITY
Acquire the IS vocabulary that also includes specific geomatics vocabulary and security matters | 4 | |||
cloud computing
Teaching language FRANÇAIS / FRENCH | 9h | 3h | ||
Modélisation de l’Information géographique 3D
Teaching language FRANÇAIS / FRENCH | 9h | 9h | ||
architecture des systèmes d'information
Teaching language FRANÇAIS / FRENCH | 9h | 15h | ||
sécurité des systèmes d'information
Teaching language FRANÇAIS / FRENCH | 12h | 12h | ||
DEVELOPMENT FRAMEWORKS
To understand and use computer development tools such as design pattern, the use of development environments, their strengths and weaknesses | 5 | |||
Programmation orientée objet
Teaching language FRANÇAIS / FRENCH | 24h | 30h | ||
JEE – Frameworks (Hibernate, Spring)
Teaching language FRANÇAIS / FRENCH | 9h | 15h | ||
BASIC TOOLS
To know some usefull tools mandatory to be able to use in the scope of IT/IS in geomatics | 3 | |||
Linux
Teaching language FRANÇAIS / FRENCH | 6h | 9h | ||
SGDB non SQL
Teaching language FRANÇAIS / FRENCH | 6h | 6h | ||
Web Sémantique
Teaching language FRANÇAIS / FRENCH | 6h | 6h | ||
COMMON PROJECT
To practice in a real world project the skills acquired during course | 9 | 201h |
Semester 4
Courses | ECTS | CM | TD | TP |
---|---|---|---|---|
INTERNSHIP
| 20 | |||
COMPÉTENCES EN DÉVELOPPEMENT AVANCÉ | 10 | |||
WEB APPLICATION ARCHITECTURE
To know and understand the web application architecture
| 4 | |||
Front et Back avancés
Teaching language FRANÇAIS / FRENCH | 15h | 15h | ||
Réalité Virtuelle, augmentée
Teaching language FRANÇAIS / FRENCH | 21h | 9h | ||
OUTILS AVANCES POUR LES SI
To know and understand some of the advanced components of a IS
| 4 | |||
Architecture avancée des SI
Teaching language FRANÇAIS / FRENCH | 6h | 18h | ||
Big Data
Teaching language FRANÇAIS / FRENCH | 15h | 15h | ||
Compilation
Teaching language FRANÇAIS / FRENCH | 9h | 9h | ||
EMBEDDED SYSTEMS AND HPC
To know embedded systems programmation and parallel programming
| 2 | |||
systèmes embarqués
Teaching language FRANÇAIS / FRENCH | 9h | 12h | ||
Parallélisme, architecture CPU/GPU
Teaching language FRANÇAIS / FRENCH | 12h | 12h | ||
COMPÉTENCES EN ARCHITECTURE AVANCÉE | 10 | |||
SDI A FIRST APPROACH
To know and be able to assemble the main components needed for building a Spatial Data Infracstructure
| 5 | |||
normalisation
Teaching language FRANÇAIS / FRENCH | 6h | 12h | ||
marchés publics
Teaching language FRANÇAIS / FRENCH | 18h | |||
gestion de projet sig
Teaching language FRANÇAIS / FRENCH | 6h | 6h | ||
systèmes d'information géographique
Teaching language FRANÇAIS / FRENCH | 18h | 18h | ||
SDI IN PRATIC
Modelise components included in real world SDI
| 5 | |||
infrastructure de données géographiques
Teaching language FRANÇAIS / FRENCH | 15h | 18h | ||
modélisation d'idg
Teaching language FRANÇAIS / FRENCH | 60h |
FRISON Pierre-Louis et BRETON Laurent (M1-M2)
COINDET Victor (M2)
ZERIZER Razika (M1-M2)
Partners
LaSTIG, CESBIO, CNES, MNHN, PRODIG, …