exchange students

 

 

 

 

 

 

© Groupe Archimède
Camille Boulicault / Campus Communication

 

You can become an exchange student if your home institution has a student-exchange agreement signed with us for study abroad programmes or placements within our university / school.

They can be specific bilateral agreements, Erasmus agreements or inter-country exchange programmes such as BCI between France and Quebec.

There are 2 possibilities:

1. Your university already has a student-exchange programme with our institution.

Contact your home Institution International Relations Office for more information about the programmes available. They can tell you about the type and level of the exchange, the selection process, the application procedures, the possible grants, dates etc. Your university is responsible for the selection procedure - we just need the official nomination of selected students from our partners.

2. Your university does not have a student-exchange programme with us.

First explore our school documentation and website so as to identify the course that best suits your academic needs or background. Then contact your International Relations Office and ask them to check if they think it is compatible. We would then be happy to hear from them about the possibility of setting up cooperation with your home university.

 

Important information  

  • Credits

Although an exchange student does NOT get a qualification from POLYTECH Montpellier, all academic results are fully recognised by both institutions. An agreed number of credits is established before arrival, and on completion, the results are sent to the student's home university via a system of credit transfer. For Europe, it is the European Credit Transfer System (ECTS) – for other programmes the required credits are defined by the specific agreement.

  • Duration

The exchange period at POLYTECH Montpellier is a minimum of 2 months and a maximum of 12 months.

  • Tuition fees

The advantage of the exchange system is that you do not have to pay tuition fees at our institution – you just pay them to your home institution.

  • Regulations

Exchange students have to respect the same rules as any other Polytech Montpellier student, and are expected to attend all courses and sit all exams they are registered for, in order to validate the credits they need to pass.

  • iPad

POLYTECH Montpellier is committed to innovative and interactive new learning methods, and has recently equipped all 3rd year students with an iPad. As an exchange student with us you are also entitled to the loan of an iPad for the duration of your study time with us.


A welcome module is offered by POLYTECH Montpellier – University of Montpellier to facilitate your arrival, help you get about town, sort out administrative worries, and explain the French University system.

It is a great way to meet the other exchange students from many different nationalities, and is often the start of some wonderful friendships! 

 

welcome day 1

welcome day 2

 cours de langue
 
 
 
 
 
 
© Groupe Archimède
Camille Boulicault / Campus Communication

 

We would like to remind students that most of classes are taught in French, so a minimum language level is required to guarantee success :

level B1 according to the Common European Reference Framework for Languages.

French classes are available throughout each semester for those who need a refresher course and for students arriving in Montpellier within the framework of our exchange programmes.

Level test


  • Semester 1 : mid-September (Classes start: October to December)
  • Semester 2: Beginning of February (Classes start: mi-February to May)

26 hours/ 2 ECTS/ semester

On arrival, please come to the Polytech International Office (building 31 on the Triolet Campus) with the following documents, in order to complete your registration and to pick up your student ID card.

  • European Health Insurance Card or equivalent
  • 1 photograph (passport size)
  • Passport or identity card
  • Student ID card from your home university.

When you arrive in Polytech Montpellier you should :

  • Complete your enrolment documents
  • Subscribe to a compulsory French personal liability insurance (approximately 16 €).

Computer Science and Management (IG department)
Biological and Food Engineering (GBA department)
Materials Science (MAT department), spring semester only
Water Science (STE department)
Microelectronics and Automation (MEA department)

 

Computer Science and Management (IG department)

 Courses long description 2023/2024

Courses (fall semester)

Teacher(s)

Hours 

ECTS

F1. Software Engineering and Design Principles (fourth year) T. Stratulat 60 3,5
F2. Data warehouse and reporting (fourth year) A.Laurent 24 1,5
F3. Machine Learning and Data Mining (fourth year) A.Laurent 24 1,5
F4. Web APp Engineering 2 (WAPE 2) (fifth year) C. Tibermacine
30
2
F5. Project of Web APp Engineering 2 (P-WAPE 2) (fifth year) C. Tibermacine 12 2
F6. Recommendation system (fourth year)
E. Pacitti
5
 0,5
F7. Software Engineering Practices (fourth year)
T. Stratulat
24 2
F8. Industrial project (fourth year) L.Buisson-Lopez 35h/week during 8 weeks 5
F9. Artificial Intelligence & Multi-Agent Systems T. Stratulat 24 2

Courses (spring semester)

Teacher(s)

Hours 

ECTS

S1. Object oriented design and programming (lecture+practical) (third year)
C. Tibermacine
25
3,5
S2. Industrial project (fourth year)
L.Buisson-Lopez 35h/week during 8 weeks
5

Biological and Food Engineering (GBA department)

 

Courses (fall semester)

Teacher(s)

ECTS

F2. Food Technology
(practical)

L. Palmade,
D. Chevalier,
C. Cunault,
A. Fontana

5

F3. Biological Hazards (lecture)           

S. Galindo

1

F4. Project: Biological and Food engineering

 

15-20

+French as a Foreign Language

 

2

TOTAL

 

21-26

Courses (spring semester)

Teacher(s)

ECTS

S1. Physico-chemical analysis
(practical)
           

S. Marchesseau,
V. Mora

3

S3. Human Nutrition (practical)

D. Gitenay

2

S4. Project : nutrition

D. Gitenay,
A. Colas de la Noue

3

S5. Project: Biological and Food engineering

 

15-20

+French as a Foreign Language

 

2

TOTAL

 

25-30

F2. Food Technology
Those practical classes (51 h) take place in a food processing pilot plant and are based on five themes: canning, production line, pasteurization, concentration and drying. Over these classes, students work on semi industrial pilots and practice their knowledge in Engineering sciences and Food processing in situations close to those of industrial production. Each topic consist of a learning phase (start and conduct of pilots), followed by a phase of autonomy (choice of parameters, number of trials, optimization). Organizational aspects, metrology and internal communication are the strengths of this practical training as well as scientific and technical aspects. Industrial fluid consumption (steam, water, compressed air / vacuum, electricity) are integrated into the process and followed with a sustainable development approach.

F3. Biological hazards

  • Introduction to hazard/risk identification
  • Assessment and management of biological risks
  • Biological hazards in food safety (bacteria, viruses, parasites and biotoxins with focus on zoonotic bacteria and mycotoxins)
  • Epidemiology of food infections in France
  • Food safety agencies (ANSES, EFSA)

F4. Project: Biological and Food engineering
Individual project, either research-oriented or in partnership with a company. Each project includes a bibliographic part, some experimental measurements, some data processing and analysis, and give to rise to a report and an oral defense.

S1. Physico-chemical analysis
Course overview: These practical courses (34.5h) focus on the choice of techniques for food analysis, based on concentrations determination of some elements or molecules present at significant or traces concentrations).
Students will learn how to:
(i) Exploit different analysis techniques such as spectroscopy, chromatography (CPG and HPLC), electrochemical and chemical analysis to determine the concentration of various molecules such as minerals (copper, calcium, magnesium, sodium, potassium, iron, ...) in chemical solution, mineral water or wine, but also caffeine or sugar in some drinks, aromatic molecules in some essential oils etc ...
(ii) Study the repeatability and reproducibility of assays performed.
The emphasis of these practical experiments is on the importance of presenting a coherent result (calculation of standard deviation).
 Key words : Assays (acid-base, redox, complexation, precipitation); Electrochemical assays; Spectrophotometry; Chromatography (liquid, gas); ion exchange resins

S3. Human Nutrition
The students will study through 4 different practical classes of 4hours each the basis of human nutrition and physiology.
First the student will put into practice the knowledge they acquired of the digestive system on an « in vitro » model of digestion. They will « digeste » too different rice varieties and assess sugar levels at the end of the digestion.
During another practical class, they will learn how to mesure the body energy needs and how to make food intakes fit those needs. They will also study blood sugar and how whole foods are better for maintaining a good blood sugar level.
During two other practical classes they will study metabolic impact of high fat diet in a rat model. They will measure metabolic markers thanks to various experiments.

S4. Project: nutrition
The goal of this project is to create a « Healthy » drink. The student will choose among many plants extracts, study the bibliography and create the beverage. Then they will analyze the extract they chose to study  on a cellular model of oxidative stress and the biochemical  properties of the beverage they created. Finally they will create a label and start to build a simplified health claim application file according to the EFSA guidelines.

S5. Project: food science and engineering
Individual project, either research-oriented or in partnership with a company. Each project includes a bibliographic part, some experimental measurements, some data processing and analysis, and give to rise to a report and an oral defense.

 

Materials Science (MAT department)

 

 

Courses (spring semester only)

Teacher(s)

ECTS

S2. Advanced Materials for Energy (lectures+tutorials)

R. Le Parc

2.5

S3. Project : Properties of Materials

 

3

S4. Project : Materials science

 

15

+French as a Foreign Language

 

3

TOTAL

 

23,5

 

S.2 Materials and energy

Lecture and tutorials : Introduction of the energy conversions, the issues related to the choice of the conversion system at different scales (from the plant to personal objects).

I-Thermal flux, conduction/diffusion, convection and radiation : application to insulating materials, innovations in the field

II-Materials in nuclear plants. Reminds on the fission process, fission products and radioactivity. Materials coice and potential damages.

III-photovoltaic: principle and requirement. Silicon in PV industry: elaboration and transformation and efficiency. New efficient thin films materials and organic PV.

IV-Fuel cells: electrochemical energy transformation, ionic diffusion in solids, materials in SOFC. Fuel cell efficiency

Practicals :

A- Measuring thermal conductivity with Hotdisk apparatus, choosing the experimental conditions, errors and uncertainties.

B- Ionic conduction in Ag-chalcogenide glasses : Complex impedance measurement, comparing the resistivity of two glasses at room temperature, electrical model, extraction of the activation energy from data measured at different temperatures.

C- Resonant piezoelectric ceramics : Complex impedance measurement for two PZT with different diameters, evidencing the resonance frequencies and modelling the electrical circuit.

S4. Project: materials science
Individual project, either research-oriented or in partnership with a company. Each project includes a bibliographic part, some experimental measurements, some data processing and analysis, and give to rise to a report and an oral defense.

 

 

Water Science (STE department)

 

Courses (fall semester)

Teacher(s)

ECTS

F1. Aquatic ecosystems survey and management (lectures + tutorials)

C. Aliaume

3

F2. Project: water science and engineering

 

10

+ French as a Foreign Language

 

3

TOTAL

 

16

Courses (spring semester)

Teacher(s)

ECTS

S1. Hydraulic modelling of transients and 2D free surface flow (lectures + tutorials)

V. Guinot, C. Delenne

3

S2. Project: water science and engineering

 

10

S3. Project management
(to be confirmed)

F. Viard

2

+French as a Foreign Language

 

3

TOTAL

 

18

F1. Aquatic ecosystems survey and management
This course provides concepts and methodologies for i) biological data acquisition (sampling methods, fishing techniques, etc.), ii) population and community study (abundance assessments, mark-recapture methods, modelling, multivariate analyses, etc.), and iii) habitat and biological resource managements (preservation, restoration, global environmental indicators, etc.). It is composed of 15h of lectures and 21h of tutorial. The final grade is composed of a literature search project (25%), a practical work project (25%) and a final exam (50%).

F2. Project: water science and engineering
Individual project, either research-oriented or in partnership with a company. Each project includes a bibliographic part, some experimental measurements, some data processing and analysis, and gives rise to a report and an oral defense.

S1. Project: hydraulic modelling of transients and 2D free surface flow
1. Pressurized pipe transients. The governing equations and the behaviour of the solutions of the pipe transients equations is analysed. The functioning of mitigation techniques (air vessels, etc.) is analysed and applied to practical test cases.

2. One-dimensional open channel modelling software. This part of the subject focuses on the analysis of the numerical techniques used by commercial/engineering software packages for open channel flow used in engineering and consultancy companies. The solution methods and limitations of the packages are examined. Projects are carried out using market-available software packages.

3. Two-dimensional free surface flow modelling has become a standard to the hydraulic engineering community. In this subject the students are trained to the theory and practice of two-dimensional free surface flow modelling. State-of-the-art modelling software packages using unstructured grids are used. Simulations are first carried out for academic test cases. The influence of geometry, mesh design, hydraulic parameters and boundary conditions is critically assessed. In a second phase real-world configurations are simulated. Applications include floodplain, flash flood and urban flood modelling. Teamwork is encouraged through projects.

Keywords: pipe transients, open channel modelling, two-dimensional flood modelling, modelling software, floodplain modelling, flash flood modelling, urban floods

S2. Project: water science and engineering
Individual project, either research-oriented or in partnership with a company. Each project includes a bibliographic part, some experimental measurements, some data processing and analysis, and gives rise to a report and an oral defense.

 

 

Microelectronics and Automation (MEA department)

 

Courses (fall semester)

Teacher(s)

ECTS

S9. Advanced Computer Architecture (fifth year)
12h (preferred organization: 4 x 3h)

D. Novo

1

TOTAL

 

1

 

S9. Advanced Computer Architecture (fifth year)

Computer architecture is the science of selecting, interconnecting, and orchestrating hardware components to build a functionally correct computer that meets performance and cost goals. As such, the computer architecture specifies the interactions between the software and the hardware in a computing system. Therefore, the course takes a hardware/software cooperative approach to understanding and evaluating computing systems. In essence, this course reviews the main components of a modern programmable computing system (i.e., processors, memory, interconnects, and storage).

Prerequisites: this course requires prior knowledge of digital circuits and systems, and basic understanding of computer architecture.

Evaluation: two short multiple-choice tests and a final written exam.

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