Study Programmes 2017-2018
Scientific research in engineering and its impact on innovation
Duration :
30h Th, 30h Pr
Number of credits :
Master in biomedical engineering (120 ECTS)5
Master in chemical and materials engineering (120 ECTS)5
Master in data science (120 ECTS)5
Master in electrical engineering (120 ECTS)5
Master of science in computer science and engineering (120 ECTS)5
Master in data science and engineering (120 ECTS)5
Master in computer science (120 ECTS)5
Master in geology and mining engineering (120 ECTS)5
Master in physical engineering (120 ECTS)5
Lecturer :
Rodolphe Sepulchre
Language(s) of instruction :
English language
Organisation and examination :
Teaching in the second semester
Units courses prerequisite and corequisite :
Prerequisite or corequisite units are presented within each program
Learning unit contents :
The objective of the course is to study the mechanisms of innovation and research in engineering through case studies of major inventions or breakthroughs in the 20th century. 
  The topic of the course in 2017-2018 will be Turbulence. 
Turbulence is one of the greatest scientific and engineering challenge of the current time. It also motivated one of the seven Millennium Prize problems in mathematics. It has a rich history over the last century and research on turbulence has had an enormous engineering impact.
Learning outcomes of the learning unit :
Students will learn how to trace the history and the subsequent impact on innovation of an important scientific paper, as a way to understand the specificity of scientific esearch in engineering.
The outcome of the 2016-2017 edition is available on the following blog .
Prerequisite knowledge and skills :
Planned learning activities and teaching methods :
  The course is divided into four phases.

Phase 1 (week 1-2): Introduction and paper reading. Introduction to the three subthemes and papers by external speakers. Allocation of subthemes to the students.
 Phase 2 (week 3-7): Individual research. Each student will choose one of the three papers, and research the history and impact on innovation of that particular paper. An individual written report will be submitted in week 7, supported by two scientific papers, one related to the history, the other one related to the impact, of the selected foundation paper.
Phase 3 (week 8) : all students participate in a week seminar where individual reports are discussed. The objective of the seminar will be to integrate the individual contributions towards the preparation of a collective report.
Phase 4 (week 9-13): students work by groups to organize the seminar material into an integrated blog presentation of the history and impact on innovation of reserach on turbulence.
Mode of delivery (face-to-face ; distance-learning) :
Second semester. Only few lectures. Several group meetings and individual or group presentations.
Recommended or required readings :
The course will be organized around three major scientific contributions to the problem of turbulence.  
Assessment methods and criteria :
Each student is evaluated individually on the following criteria:
  • Individual research and individual written report. 
  • Individual contribution on the final blog group report.
  • Active participation throughout the different phases of the course.
Work placement(s) :
Organizational remarks :
The course will take the form of a seminar with active participation of the students throughout the semester. There will be only few ex cathedra lectures but students are required to participate in all planned activities as this is part of the evaluation. Week 8 is a particular week as it is hoped that the group can gather for five half-days, to be determined during week 1.
Contacts :
Rodolphe Sepulchre