
Master’s Degree in Engineering - Major in Industrial Engineering & Services - ‘Grande École’ Program
DURATION
5 Years
LANGUAGES
French, English
PACE
Full time
APPLICATION DEADLINE
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EARLIEST START DATE
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TUITION FEES
EUR 7,500 / per year *
STUDY FORMAT
On-Campus
* EUR 5 500 per year for undergraduate studies
Introduction
Upon completing their training, thanks to a high level of scientific and technical expertise, graduate engineers will be able to lead and coordinate teams in France and abroad. They will be able to intervene right from the design stage of a product or service by providing innovative solutions and supporting the company’s development in the context of digital and ecological transitions said the company is facing. Depending on their career guidance choices, they can practice their trade in any industrial or service sector.
Possible Options
The options in the industrial engineering academic career are divided into 3 sub-families: - Ecological transition and sustainable development: Quality, Safety & Environment, Energy Performance - Digital transition: Prototyping, Robotics - Industrial engineering and innovation: Business unit manager, Industrial performance optimization, Industry 5.0, Entrepreneurship, Innovation. Students can choose 2 options among those offered on each campus.
Five years to pave the way for your career as an engineer. In the undergraduate program, you start with one year that is common to all four CESI fields, and then you gradually progress towards choosing your major in year 3. With a Master’s Degree in Engineering - Major in Industrial Engineering & Services, you’ll be able to provide innovative solutions to the problems encountered. To achieve a specialization and stand out, choose an option in year 5. Accredited by the Commission of Engineering Certifications (CTI), this Program benefits from international recognition.
Corporate Missions
Preparatory cycle: Study of mechanical systems / Choice of materials / Sizing of a fluid network / Design of controlled systems / Computer-aided design / Study of a production line Engineering curriculum: Study and design of new products / Optimization through statistical control of processes / Development of test benches / Implementation of ISO certification / Relocation of production means / Deployment of a continuous improvement approach / Start-up of a waste recovery unit / Optimization of the energy consumption of a factory.
What will students be able to do in a Company?
In the undergraduate program, students will carry out missions such as: drafting calculation notes, designing and developing classic hardware or software functions, carrying out functional validation tests...
In the Master of Engineering program, they evolve from technicians to engineers:
- Qualified technicians at the end of the 1st year: they master the technical aspects of their missions and know how to apply them independently.
- Assistant engineers at the end of the 2nd year: they are able to handle problems requiring new solutions, and to supervise teams in the field.
- Junior engineers at the end of the study program: they are autonomous to handle entire subjects by integrating technical, economic, organizational, and human dimensions.
Throughout their training, the CSR policy and sustainable development goals will be put into context in the academic path and during in-company periods.
The Assessment System
In both the undergraduate program and the Master of Engineering program, the assessment system is based on continuous monitoring. Subjects are divided into different Learning Units; Each unit corresponds to a given number of ECTS credits. One year corresponds to 60 credits. Students must have passed all their learning units and obtained their ECTS credits to progress to the next academic year.
The conditions for being awarded a degree are as follows:
- Passing all Learning Units, therefore having obtained 300 credits over the five years of training
- Obtaining a B2 level certification in English
- Doing a 20-week mobility abroad
CESI’s Master of Engineering program is a study program involving a 2-undergraduate program followed by a 3-year study program on campus, which leads to an engineering degree (level 7 - Master).
Choosing CESI’s International Programs
As an international, French-speaking, and English-speaking student, you have the opportunity to study different CESI programs in France, depending on your education level, ranging from undergraduate degrees to post-graduate degrees, or equivalent degrees obtained abroad:
- ‘Grande École’ Program (Master’s Degree)
- Master’s Degree in Engineering
- Master’s Degree in Computer Science
- Executive Post-Graduate Programs®
Some of our programs offer a so-called preparatory year, enabling you to improve your academic or language skills and, thus, making it easier for you to continue your studies: Engineering Degree Pathway.
Because welcoming you is one of CESI’s commitments, our teams will support you in preparing for your arrival and taking care of all administrative procedures, whatever program you choose.
The international aspect is at the heart of our strategic and educational plan. What’s the goal? To offer you a truly multicultural experience, an opportunity to broaden your horizons, and a window to the job market in France and abroad. All CESI training programs meet European and international standards, particularly by splitting the academic year into semesters or delivering ECTS credits. Moreover, CESI holds the ERASMUS+ charter and works with many international players such as Campus France or the CDIO Initiative.
Admissions
Curriculum
The Curriculum of the Undergraduate Program
Fundamental Engineering Sciences
- Implementing mathematical tools for engineers in analysis, algebra, geometry, and statistics-probability
- Applying the fundamental principles of direct and alternating current electricity, point mechanics and non-deformable solids, thermal science, and thermodynamics.
- Deepen your knowledge in the fields of physics: electricity, electronics, solid and fluid mechanics, energy performance, materials chemistry
- Understanding and implementing the basic principles of algorithms and programming
Sciences and Methods of an Engineer
- Applying analysis and problem-solving methods
- Carrying out a functional analysis
- Establishing specifications
- Using CAD software to model a product and have it 3D printed
- Practicing embedded programming on Arduino
- Sciences and Techniques of Industrial Engineering
Application of Physical Principles and Phenomena
- Designing an automatic servo-controlled system
- Calculating the power required by an electromechanical system
- Understanding and implementing the principles of electromagnetism
- Carrying out a modeling task using a robot
- Implementing a robot as part of a project affecting society
Understanding How an Industrial Company Works
- Identifying its different processes: R&D, industrialization, production, logistics
- Identification of physical and information flows
- Establishing a mapping process
- Implementing the principles of production management: organization, planning, costs
Humanities, Economics, Legal and Social Sciences
- Developing your ability to express yourself clearly and flawlessly in French orally and in writing
- Gaining communication reflexes that promote teamwork
- Practicing the English language to communicate in a professional context
- Incorporating the principles of sustainable development to address climate issues
Traineeship
- Applying the knowledge acquired during a traineeship in a company, with a minimum duration of 3 months
Master of Engineering Curriculum
Fundamental Engineering Sciences
Fundamental sciences are essential for engineers, including mathematics and subjects related to physics that they will need in their roles: Mathematics, Mechanical engineering (solid mechanics, fluid mechanics, materials), Electrical engineering (electricity, electronics, electromagnetism), Energy engineering (thermodynamics, thermal science)
Sciences and Methods of an Engineer
- Industrial engineers must master engineering tools and methods to manage projects and address problems they must solve:
- Functional analysis
- Statistics and Probability
- Operations Research
- Analysis and problem-solving methods (FMEA, VSM...)
- Management of information and communication systems
- Documentary research
- Project management
- Lean management, operational excellence
- Innovation engineering
- Introduction to Research
- Functional analysis
- Statistics and Probability
- Operations Research
- Analysis and problem-solving methods (FMEA, VSM...)
- Management of information and communication systems
- Documentary research
- Project management
- Lean management, operational excellence
- Innovation engineering
- Introduction to Research
Sciences and Technology of Industrial Engineering
- The specialized program in sciences and technology aims to address in-depth subjects needed nowadays in the various industrial sectors, by incorporating the eco-responsible dimension at every stage of a product’s lifecycle: 3D CAD, modeling, digital mock-up / Additive manufacturing / Robotics, robotics / Artificial Intelligence / Augmented Reality, Virtual Reality / Sensors and connected objects / Lean management / QSE / Eco-design
Humanities, Economics, Legal and Social Sciences
The HSEL (Human Sciences, Economy and Legislation) program is essential to complement engineers’ knowledge and skills, beyond the scientific and technical fields:
- Professional communication
- Leadership and people management
- Economics and business administration
- Labor law and staff management
- Corporate social responsibility and ethics
- Regulations and standards
- Team leadership and creativity development
International
- English: writing and speaking skills, preparation for the TOEIC test certification
- Interculturality
Professional Project
The Individual Training Project allows each student to develop their professional project:
- Identifying the skills required for the position in question,
- Doing a self-assessment,
- Building a progress plan
- Assessing your progress
Students benefit from optimized preparation for taking up their positions at the end of training. This process is followed up throughout the training by CESI teachers and recruitment experts.
Program Tuition Fee
Career Opportunities
- Research and Development Engineer / Business Engineer / Project Engineer
- Production Engineer / Continuous Improvement Engineer / Methods Engineer
- Maintenance and New Facilities Engineer
- Lean Manufacturing Engineer
- Quality, Safety, and Environmental Engineer
- Ecological Transition Engineer
Further Studies at CESI
Executive Post-Graduate Programs at CESI to specialize your expertise or move towards research by continuing your PhD studies at CESI. Take advantage of CESI partnerships with international universities and business schools to obtain a double degree.
Program Admission Requirements
Show your commitment and readiness for Grad school by taking the GRE - the most broadly accepted exam for graduate programs internationally.