ECE Paris

Introduction

Graduate School of Engineering since 1919.

Founded in 1919, the Ecole Centrale d’Electronique (ECE) is a privately owned French Grande Ecole located in the heart of Paris. From its inception, ECE Paris has been committed to educating students in science and technology at the undergraduate and graduate levels.


Its curriculum primarily focuses on emerging information and communication technologies. The ECE curriculum reflects the ever-changing world we live in with evolving coursework and proactive degree design that prepare our students for the challenges that lie ahead.

  • 6,900 ECE Engineers around the world
  • 2,020 current students.
  • 350 full-time and part-time Professors and Practitioners.
  • 800 Corporate Partners.
  • 32 Student Associations.
  • 3 Research laboratories
  • 7 Technological and sectorial Majors
  • 83 Partners Universities in 33 Countries with 12 Double Degree partner
  • 5,000 internship offers each year

ECE Paris – developing and nurturing the next innovative minds of the future!


New ideas —not money or machinery— are the source of success today….and the greatest source of personal satisfaction as well. Creative technology is revitalizing manufacturing services, retailing and entertainment industries. It is changing where people want to live, work and learn— where they think, invent and produce.


Creative problem solving and change leadership all play a major role in today’s workplace. Professional success is linked to the ability to master innovation, to operate as an opportunity finder, and to lead change. This is the reason why ECE places such a strong emphasis on developing original thinking in future engineers.


At ECE Paris you will develop essential skills that include:

  • Realizing your innovative ideas.
  • Willingness to bring new perspectives to day-to-day work.
  • Openness to take different approaches and do things differently.
  • Focusing on the value of finding new ideas and acting on them.
  • Mastering creative problem solving.
  • Striving to create value in new ways.
  • Listening to others.
  • Supporting and respecting others when they come up with new ideas.
  • Challenging the status quo.
  • Implementing change.
This school offers programs in:
  • English

View MSc » View master programmes »

Programmes

This school also offers:

Master

Connected Devices, Networks And Services

Campus Full time September 2017 France Paris

While access to broadband Internet, fixed and mobile has become widespread and the cost of the connections fall under the impact of competition, the centroid of the Telecoms economy has shifted in favor manufacturers of connected devices and field services. [+]

While access to broadband Internet, fixed and mobile has become widespread and the cost of the connections fall under the impact of competition, the centroid of the Telecoms economy has shifted in favor manufacturers of connected devices and field services. In recent years, the proliferation of connected objects with the promise of changing the everyday consumer. The Internet of Things comes with the digital transition of the traditional economy. Today he knows of variations in many areas such as "wearables", the connected car, intelligent home, the "smart city", the digital payment ... The mountains of data accumulated by all these connected objects create value, "Oil of the 21st Century" for some. By combining the object a remote intelligence in the cloud, it enables an economic model related to its use and the object becomes service. To develop these services, it is necessary to acquire a global vision. It starts with the reflection on the use of an approach which is similar to that of the designer. It ends with the market knowledge and analysis of the value chain of the connected service. In between are technical skills whose variety is the asset of the Engineer resulting from this Major. Red string, it will go up skills on technologies of Internet networks and radio networks. The first half will be more specifically focused on the connected object and rapid prototyping. The second half will be based on web and mobile programming. The third specifically address the dimension of services and platforms architectures while two week seminars will be blocked synthesis exercise by developing an innovative service "design thinking" mode on the proposed themes. This Major will naturally be complemented by the deepening Options proposed for ECE Paris as Data Scientist, interactive and sensory Design, Innovation and Entrepreneurship Skills Ability to ... design a service connected end to end, from the user experience to its economic relevance. Ability to prototype a connected object, to develop a web and mobile application, to define a network architecture, deploy and operate a services platform ... PROGRAM connected objects, Networks and Services 2nd year of engineering studies User experience and interactive design From sensor to measure Introduction to IP networks Routing Protocols and Concepts Introduction to 3D design Prototyping of connected objects Select a wireless LAN Mobile programming on Android Technos Web / LAMP Mobile radio networks Expand IP Networks Connect IP networks 3rd year of engineering studies Advanced concepts of IP networks Cloud services Programming for Android systems IoT architecture platforms IP Multimedia The economy of connected services Workshops "Service Dev Camp" Project Manager Trades innovation Mission: design and develop innovative products. Working in project mode by responding to market expectations and sending the finalized product development. Meanwhile, keep watch on technological innovations. Mission Designer services: Design new components or services service platforms and ensure their consistency with the existing. Mission Architect convergent solutions: Design new service solutions that combine different techniques bricks of network architecture, the SI and service platforms. Mobile Application Developer Mission: Define specifications, choose a technical solution based on the specific project, make the application and test it to verify that it meets the specifications [-]

Master in Engineering, Major in Information Systems

Campus Full time September 2017 France Paris

The Master of Information Systems and Networks trains engineering students to design and manage information systems which have become a source of competitive advantage for insightful companies today. Indeed, this field is currently experiencing deep mutations where the traditional boundaries of operations, production, decision making, and strategic planning are disappearing. In addition to positions such as project manager, information systems architect or networks architect, business intelligence specialist, … new and exciting job opportunities are offered to our engineers thanks to emerging web platforms, and related web services. [+]

Master of Information Systems and Networks

 

The Master of Information Systems and Networks trains engineering students to design and manage information systems which have become a source of competitive advantage for insightful companies today. Indeed, this field is currently experiencing deep mutations where the traditional boundaries of operations, production, decision making, and strategic planning are disappearing. In addition to positions such as project manager, information systems architect or networks architect, business intelligence specialist, … new and exciting job opportunities are offered to our engineers thanks to emerging web platforms, and related web services.... [-]


Master in Engineering Major in Embedded Systems

Campus Full time September 2017 France Paris

The Major in Embedded Systems adds to the uniqueness of the ECE curriculum since our school is one of the only graduate schools of engineering to offer full academic training in this field. [+]

Master in Engineering Major in Embedded Systems

 

 

The Major in Embedded Systems adds to the uniqueness of the ECE curriculum since our school is one of the only graduate schools of engineering to offer full academic training in this field. The embedded systems domain is currently experiencing tremendous growth in the automobile, aeronautics, space, rail, mobile communications, and electronic payment solutions industries. The main technological driver behind today’s research and development is the need for mobility. Today companies value operational embedded systems engineers, and yet such graduates are hard to find on the market. Our students conduct their internships with leading companies working as embedded software engineers, real-time software engineers, embedded applications engineers, or industrial process automation engineers working for DASSAULT AVIATION, SNECMA, SCHLUMBERGER, VALEO, etc.... [-]


MSc

Master in Engineering – Major in Energy & Environment

Campus Full time September 2017 France Paris

Energy & Environment covers all of the high-tech professions involved in energy production and distribution, as well as consumption management. [+]

Master in Engineering – Major in Energy & Environment Energy & Environment covers all of the high-tech professions involved in energy production and distribution, as well as consumption management. It builds on a body of knowledge indispensable for any energy engineer ranging from thermodynamics to material science, from fossil fuel to renewable energy, and from nuclear generation to Smart Grid technologies. It also covers embedded energy sources such as batteries and fuel, which is the key to miniaturization, mobility and the transportation of the future. Considerable attention is devoted to buildings, which represent 40% of total energy consumption. Thermal materials are studied to understand the technologies of insulation, photonics, and solar panels to control the production of photovoltaic energy. Science and high-tech come together to design buildings with low energy consumption, create housing for the future and steer its main energy functions. Beyond energy production this major explores the professions directly related to the protection of the environment and sustainable development: The control and management of energy infrastructures, in order to optimize the use of fossil fuels and renewable energy sources. Smart metering using sensor networks, real-time information systems and associated telecommunications systems. Energy automation functions of private homes and corporations, based on the knowledge of materials and the operation of solar panels. Expertise in fuels and batteries is fundamental to mass production of energy efficient hybrid vehicles and mainstreaming embedded systems. Objectives of the Energy & Environment Major Training our engineers to have the ability to design and implement renewable energy production systems, intelligent systems that control energy infrastructure, consumption management and energy storage using all high-tech possibilities of control, sensor networks and information systems. 2nd year of the Master’s program Preparing our graduates to be experts in the following positions: Energy infrastructure management Design of intelligent energy networks Energy engineer for buildings Embedded energy engineer Sustainable development engineer Environmental engineer Oil & gas engineer For Energy and Environment, Embedded Systems and Information Systems, this is the French language requirement : "French language requirement Please note that the French language proficiency is also required for all specializations. For specializations offered in English, the program is in English during the first year of and in French during the second year. Therefore, candidates must have at least an A2 level (B1 preferred) in French at the start of the program for these specializations. For the specializations offered in French, candidates must have a minimum of B2 in French at the start of the program. The French language level must be supported by TEF, TCF, DALF or DELF certifications." [-]