The Master of Enterprise Engineering program is organized over one year corresponding to semesters 9 and 10 (year 5) of the overall university education cycle. Training takes place in France (Bordeaux) and is dedicated to the teaching of Enterprise Engineering. The first semester (September to December) consists of lectures, exercises and practical work; the second semester (January to July) consists of projects and an internship (within a company or a research laboratory).
The Enterprise Engineering program benefits from the expertise of the industrial engineering research group at the IMS laboratory, University of Bordeaux. This expertise is well recognized at national and international levels in the field of industrial engineering. The productics group has developed and maintained close relationships with the industrial world for more than 35 years. Lectures, exams and internship report are conducted exclusively in English. Courses are validated by written and/or oral exams, and the internship is subject to a report/memoir and a presentation in front of a jury.
Once the Master studies are completed, graduates obtain a Master Degree of the University of Bordeaux, an official national diploma in France.
Semester 1: September to December
Semester 2: January to July
The Joint Master Degree in Sustainable Automotive Engineering (JMDSAE) provides courses in the field of Low Carbon Automotive Engineering and more largely in Electromobility. The partner institutions have the shared aim of promoting strong cooperation in order to implement the JMDSAE. In particular the objectives are:
The JMDSAE consists of four semesters including an internship and a Master thesis.
Semester 1 & 2
University of Antwerp Term 1: September to December
AUTOMOTION AND ENGINE TECHNOLOGIES
Loughborough University Term 2: January to March
University of Bordeaux Term 3: April to June
University of Deusto Term 3: April to June
Semester 3: September to January
Semester 4: February to June
The European Commission estimates 12 million jobs within the European automotive industry. The industry also has strong economic connections to many other developing industrial sectors. There is therefore already a strong and growing need for a qualified workforce in this domain in Europe and throughout the world.
Graduates are expertly qualified to work in R&D departments that focus on the development of hybrid/electrical vehicles as well as parts of these vehicles as powertrains.
The FAME Master provides high-level academic and research oriented education about the synthesis, characterization and processing of all classes of materials with special emphasis on “Advanced Hybrid Materials and Ceramics by Design” in Bordeaux.
European mobility is mandatory during the two-year Master program thus taking advantage of the complementary skills of the universities in the network. In the last decade, more than 200 students have graduated from the FAME Master.
The FAME program consists of four semesters (30 ECTS each) including a Master thesis in a European research laboratory.
High-level academic and research-oriented education about the synthesis, characterization and processing of all classes of materials including:
Strengthening of an international culture, including fluency in English, mobility as well as experience of the languages and culture of the countries visited.
Improved integration capacity into either Academic or Industrial R&D teams.
After completion of this Master, students are encouraged to apply for Ph.D programs in Europe, including those offered by IDSFunMat, in the framework of EMMI.
Graduates may also start working as scientists or R&D engineers within the industrial sector.
Since 2009, more than 70% of the FAME Master graduates from Bordeaux have successfully pursued their studies with a PhD opportunity. These PhDs have been carried out in Bordeaux (~33%), in France (~50%) and in Europe (~87%) (data from 2015).
The collaborative degree shows a level of commitment to the development of technical and professional skills that would impress any employer. Students – and potential employers – also benefit from the knowledge gained from faculty at two institutions. With the increasing globalization of the technical workforce, degrees that span institutions and provide an international perspective are particularly valuable.
In today’s competitive technology environment, top opportunities are going to skilled engineers who have a wide-range of professional capabilities. Aero-Systems Operations (AESOP) is an exceptional program joining UBx expertise in maintenance with UC expertise in engineering. Students at each university may purse UC CEAS' Master of Engineering (MEng) and UBx’s International Diploma collaboratively.
The AESOP curriculum offers a practice-oriented, personalized degree that prepares engineers to excel in the new working world. Advantages of the graduate degree include:
Core at UC, Fall Semester (9 Credits)
Technical Specialty at UC, Fall Semester (6 Credits)
Choose 2 Courses from Any of the Following Department Offerings:
Aero System Operations at UBx, Spring Semester (12 credits)
Airworthiness UBx/ENAC (Mandatory)
Each Module includes theory, applications and lab (3 credits – choose 1)
Each Module includes theory, applications and lab (6 credits – choose 1)
Capstone Project at UBx, Spring Semester (3 Credits, Mandatory)
The International Master in Bio-Imaging at the University of Bordeaux offers a comprehensive and multidisciplinary academic program in cellular and biomedical imaging, from molecules and cells to entire animals and humans. It is part of the “Health Engineering” program, which combines three academic tracks (Biomedical Imaging, Cellular Bio-Imaging and Bio-Material & Medical Devices).
Built on the research expertise of the researchers at the University of Bordeaux, this Master program provides excellent training opportunities in advanced bio-imaging methods and concepts to understand (patho)-physiological processes through the vertical integration of molecular, cellular and systems approaches and analyses.
Students receive intense and coordinated training in bio-imaging, combining a mix of theoretical and practical aspects. They acquire scientific and technological knowledge and experience in the main imaging techniques used in biomedical research and practice.
Semesters 1 and 2 focus on the acquisition of general knowledge in the field (courses and laboratory training). Semester 3 consists of track specialization in cellular bio-imaging, biomedical imaging and bio-materials & medical devices. Semester 4 proposes an internship within an academic laboratory or with an industrial partner.
Cellular Bio-Imaging track
Biomedical Imaging track
Cellular Bio-Imaging track
Biomedical Imaging track
Graduates will be qualified in the following domains of expertise:
Potential career opportunities include: researcher, service engineer, application scientist, bio-medical engineer, sales engineer, healthcare executive.