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Semester 7

Challenges of S7

Pdf version

Challenge Imagine & Make

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Course label :	Challenge Imagine & Make
Teaching departement :	ESO / Business and Society
Teaching manager :	Mister ZOUBEIR LAFHAJ
Education language :	French
Potential ects :	1.5
Results grid :
Code and label (hp) :	G2_S7_CHA_IMA - Challenge Imagine&Make

Education team

Teachers : Mister ZOUBEIR LAFHAJ / Madam VERONIQUE LE COURTOIS / Mister LAURENT PATROUIX / Mister PASCAL YIM / Mister SLIM HAMMADI
External contributors (business, research, secondary education): various temporary teachers

Summary

There are three main objectives: to innovate, to carry out a complex project and to undertake. "Complex project" is to be understood in the sense of a project that requires the integration of different technological components (e.g. mechanics, electronics, IT, ...). In the spirit of a hackathon or a startup weekend , the challenge will start with an "Imagine" phase to find original and disruptive ideas, and a "Make" phase at the FabLab to create a prototype.

Educational goals

At the end of the course, the student will be able to : - Innovate o Implement creative techniques to produce innovative ideas o Selecting ideas - Carrying out a complex project o Design a prototype ï¿œ Analyze the feasibility of the idea ï¿œ Decide on the features of the prototype ï¿œ Assess training and equipment needs o Rapidly build a prototype in a team ï¿œ Acquire the necessary knowledge and know-how (online resources and coaching) ï¿œ Discover rapid prototyping tools (FabLab) ï¿œ Sharing roles ï¿œ Integrate the different components of the project - Undertake o Make a video presenting the prototype in a context of use. o Evaluating a budget to achieve a proof of concept o Make a pitch to convince investors o Produce a video and a pitch in English Contribution of the course to the skills repository; at the end of the course, the student will have progressed in : - Ability to invent creative, ingenious, original solutions - Ability to mobilize a scientific/technical culture (transdisciplinarity and/or specialization) - Ability to identify and plan the necessary resources - Ability to concretize or make a prototype - Ability to add value Translated with www.DeepL.com/Translator (free version)

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Challenge follow-up, coaching and final pitch

Online resources

On Moodle

Pedagogy

Imagine Phase (Monday) The "Imagine" day aims to produce innovative ideas and to build teams: - Divergence phase - the morning is devoted to generating ideas, on the model of the "World Cafï¿œ"(1). About a hundred ideas are produced at the end of this process. - Convergence phase - ideas are then entered into the online tool StormZ (2), and participants evaluate and comment on the ideas online, resulting in the selection of about a dozen ideas. - Team building - teams are formed around the selected ideas. The same idea can be chosen by several teams Pre-Make Phase (Tuesday morning) The aim of the "Pre-make" phase is to efficiently prepare the realization of the prototype and the final pitch. - Prototype design: choice of the functionalities to be realized, limits - Identification of needs : o hardware needs: manufacturing, electronics, servers, ... o coaching needs - Pitch and video design: storytelling, ... - Workshops to learn the FabLab tools : 3D design and printing, laser cutting, CNC machine, electronics and arduinos, embroidery, web, ... - Presentation of preliminary pitches (project evolution, design, needs) Workshops require same-day online registration. They have been duplicated between two and four times during the day (one-hour introductory workshops). The workshops were complemented by online educational resources. Phase Make (Tuesday afternoon - Friday morning) The "Make" phase is dedicated to the realization of the prototype and the pitch: - Coaching (by appointment) - Realization of prototypes (with the support of the technical team) - Preparation and presentation of a "Pitch Kickstarter" (5 minutes) : o Production and editing of a video presenting the prototype in its context, in order to explain its use (storytelling) o Estimate of a financial amount needed to launch the project, and a brief explanation of it o Fast pitch, which is intended to raise funds (not to present the project) (1) http://www.recit.net/IMG/pdf/m049_le_world_cafe_le_guide_complet_.pdf (2) https://stormz.me/ *** Translated with www.DeepL.com/Translator (free version) ***

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

270

Remarks

Corporate Game Challenge

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Course label :	Corporate Game Challenge
Teaching departement :	ESO / Business and Society
Teaching manager :	Mister NORDINE BENKELTOUM
Education language :	French
Potential ects :	1.5
Results grid :
Code and label (hp) :	G2_S7_CHA_JEN - Chall. Jeu d'Entreprise

Education team

Teachers : Mister NORDINE BENKELTOUM / Madam VERONIQUE LE COURTOIS / Mister BADR JELIL / Mister THIERRY FRICHETEAU
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

270

Remarks

Leadership Challenge in extreme situations

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Course label :	Leadership Challenge in extreme situations
Teaching departement :	ESO / Business and Society
Teaching manager :	Madam AMIRA CHAABANE
Education language :	French
Potential ects :	1.5
Results grid :
Code and label (hp) :	G2_S7_CHA_LSE - Chall. leader.situ.extreme

Education team

Teachers : Madam AMIRA CHAABANE / Madam IZABELLA CHARTRES
External contributors (business, research, secondary education): various temporary teachers

Summary

The economic environment in which companies operate today is marked by increased competition. This context confronts managers with management situations that are described as extreme because they are evolving, uncertain and risky. The purpose of this course is to prepare future managers, who are our students today, to face extreme situations by giving them the keys to: - Discernible in complexity; - Decide with uncertainty; - Act in adversity. To be as close as possible to reality, this teaching consists of small theoretical-practical modules and extreme situation management in the field. The scenario of managing an extreme situation is studied to enable students to manage a large-scale industrial, environmental and societal crisis.

Educational goals

At the end of the course, the student will be able to: - Organize and manage communication flows in extreme situations within an organization composed of several teams - Optimize face-to-face communication within an organization facing a crisis situation - Managing and leading in adversity - Articulate your organization to face an extreme situation - Plan operations to manage an extreme situation - Conduct operations in extreme situations - Adapt your organization to the multiple evolutions of an extreme situation - Reassure, calm and energize the organization's members in the face of an extreme situation

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Acquisition of information on "leadership in extreme situations" (presentation amphitheatre 2 h): to validate, it is enough to be present. Explicit knowledge acquisition (reverse class + student - teacher discussion forum 6h): evaluation through a static Quiz. Acquisition of tacit knowledge + skills (simulation + debriefing 18 h): collective evaluation by means of a score assigned to the team when managing the "extreme situation" + individual score. Consolidation of knowledge and skills (conferences with specialists + 8-hour course): evaluation through a dynamic Quiz.

Online resources

Pedagogy

A pedagogy based essentially on simulation, which will allow students to manage an extreme situation in the field and to really control it. For the theoretical-practical modules, we will use case studies, video training and small simulations.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

No prerequisite

Maximum number of registrants

300

Remarks

Show separately Pdf version

Course label :
Teaching departement :	ESO / Business and Society
Teaching manager :	Madam IZABELLA CHARTRES
Education language :	French
Potential ects :	1.5
Results grid :
Code and label (hp) :	G2_S7_CHA_FIN - Chall. final

Education team

Teachers : Madam IZABELLA CHARTRES / Madam AMIRA CHAABANE / Mister ERIC DANIEL / Mister NORDINE BENKELTOUM / Mister REMI BACHELET
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

No prerequisite

Maximum number of registrants

300

Remarks

Intergation electives

Pdf version

Biomechanics

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Course label :	Biomechanics
Teaching departement :	MSO / Structures, Mechanisms and Construction
Teaching manager :	Mister OLIVIER MAYEUR
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_BIM - Biomécanique

Education team

Teachers : Mister OLIVIER MAYEUR / Madam AMINA TANDJAOUI / Madam PAULINE LECOMTE / Mister DENIS LE PICART / Mister DENIS NAJJAR / Mister LAURENT PATROUIX / Mister XAVIER BOIDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	12
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	58
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	48
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Architectural design and sustainable development

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Course label :	Architectural design and sustainable development
Teaching departement :	MSO / Structures, Mechanisms and Construction
Teaching manager :	Mister Dinh-Luan PHAM
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_CAD - Conc. archi. & devlt. durable

Education team

Teachers : Mister Dinh-Luan PHAM
External contributors (business, research, secondary education): various temporary teachers

Summary

The first objective of this module is to enable students to understand the fundamentals and renewals of architectural design and civil construction in the context of sustainable development. Training in design tools and approaches will be combined with training in building project engineering that involves numerous and often heterogeneous partners in their way of thinking, objectives and interests (architects, design and consulting firms, construction companies, material suppliers and distributors, project owners, public actors, social actors, etc.). Beyond the architectural design itself, it will therefore be a question of accessing the engineering forms specific to the building sector and the challenges of sustainable construction. More broadly, this module will also allow students to learn about various aspects of industrial engineering: product and system design, interoperability between project stakeholders, the place and role of the customer, etc. The second objective of this module is to prepare directly for the double degree course "engineer-architect" built in the TIME network with the Polytechnic Faculty of Mons (Belgium) and the Politecnico di Milano (Italy) whose European recognition of the title of engineer architect (and free professional installation) requires that four years of study be explicitly related to architecture. This module is therefore compulsory for students wishing to access this double-degree program, in conjunction with modules for further study of physical sciences for engineers related to the field of construction and possible other transversal modules. The contents will be organized around four main axes: - Design, construction and architectural engineering (including eco-design, HQE, home automation and energy approaches to buildings) - Plastic expression and graphic representation of the design (sketch and advanced phase) Architecture project (and integrated project exercises).

Educational goals

At the end of the course, the student will be able to: - Understand the issues of construction, urban planning and architectural engineering (including eco-design, HEQ, home automation and energy approaches to buildings), in the context of sustainable development - Implement and express plastically and graphically a realistic architectural concept that takes into account structural, technical, economic, societal and sustainable constraints - Carry out an architectural project and project exercises individually and in groups (pairs or trinomials), i.e. freely or following negotiation with peers Contribution of the course to the competency framework; at the end of the course, the student will have progressed in: - C1 - Emerging: Understanding many dimensions of an architectural project - C2 - Represent and model: Model and prototype an architectural project - C2 - Resolve and arbitrate: Defend your architectural project before a jury of specialists from various fields - C4 - Leading transformations in your organization: Identifies the urban planning problems related to the project

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Regular active participation, quality of the final mock-up and defence

Online resources

Given progressively during the courses

Pedagogy

This teaching will be built around a "common thread" case study which consists of an architectural project spread over a large part of the duration of the module. Thus, the module uses the concepts of sustainable development applied to the building and its architecture, through the realization of a simple architectural project, including the realization of individual and group 3D models. The architectural project concerns sustainable and sustainable housing, modular, dismountable and lightweight, to create an exhibition pavilion (individual short project) then offices with co-working, or a flower market, or a covered market, as part of the long team project.

Sequencing / learning methods

Number of hours - Lectures :	64
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	128
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Prerequisites for students wishing to pursue a double degree in engineering and architecture

Artificial intelligence and health

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Course label :	Artificial intelligence and health
Teaching departement :	MIN / Applied Mathematics and General Computing
Teaching manager :	Mister SLIM HAMMADI
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_IAS - Intelligence artif. & santé

Education team

Teachers : Mister SLIM HAMMADI / Madam CLAIRE BELART / Madam VERONIQUE LE COURTOIS / Mister PASCAL YIM / Mister YANNICK DUSCH
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	48
Number of hours - Tutorial :	48
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	48
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Autonomous transport system

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Course label :	Autonomous transport system
Teaching departement :	EEA / Electrotechnics - Electronics - Control Systems
Teaching manager :	Mister ABDOUL-KARIM TOGUYENI
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_STA - Systèmes de transport autonome

Education team

Teachers : Mister ABDOUL-KARIM TOGUYENI / Madam CLAIRE BELART / Mister ALEXANDRE KRUSZEWSKI / Mister GUILHERME ESPINDOLA WINCK / Mister PASCAL YIM / Mister WILFRID PERRUQUETTI
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	38
Number of hours - Tutorial :	4
Number of hours - Practical work :	20
Number of hours - Seminar :	20
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	48
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Bioeconomy

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Course label :	Bioeconomy
Teaching departement :	ESO / Business and Society
Teaching manager :	Madam SOPHIE DUQUESNE
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_BIO - Bioeconomie

Education team

Teachers : Madam SOPHIE DUQUESNE / Madam CLAIRE BELART / Mister BADR JELIL / Mister OLIVIER GABUT / Mister SEBASTIEN PAUL
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	9
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	48
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Biomimetic flow control

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Course label :	Biomimetic flow control
Teaching departement :	CMA /
Teaching manager :	Mister CHRISTOPHE CUVIER / Mister JEAN-MARC FOUCAUT
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_BFC - Biomimetic Flow Control

Education team

Teachers : Mister CHRISTOPHE CUVIER / Mister JEAN-MARC FOUCAUT / Madam AMINA TANDJAOUI / Madam CHARLOTTE BECQUART / Madam MARIEM BHOURI / Mister ABDELKRIM TALBI / Mister DENIS LE PICART / Mister JORAN ROLLAND / Mister LAURENT PATROUIX / Mister MARTIN OBLIGADO / Mister MOHAMMAD AHMAD / Mister Sire de Marc EBODE ONANA / Mister XAVIER BOIDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

This course addresses the problems of the automotive industry, in particular the aerodynamics of vehicles and their design in order to reduce their consumption. Its purpose is to present fluid mechanics, design and manufacturing tools used in the automotive industry or that can be used. The professions concerned are aerodynamic engineer, design engineer, product development engineer, etc. The concepts that will be covered in the course will be as follows: -basic principles of aerodynamics (equations, aerodynamics, numerical simulations and wind tunnel validation) -Product design under Catia (advanced CAD) -Conventional machining (turning, milling, drilling, adjustment) -Materials and processes -Micro-sensors and micro-actuators for flow control -Reactive and automatic control -Economy

Educational goals

At the end of the course, the student will be able to: -To address a concrete problem in the automotive industry related to fuel consumption reduction (Competency C2.1: Represent and model, grade A competent level, D beginner) -To propose drag reduction solutions, to design, implement and validate them using a multidisciplinary approach (design/manufacturing/implementation/digital simulations and wind tunnel validations (competence C2.2: Solve and Arbitrate, grade A competent level, D beginner). - To have a critical mind on traditional drag reduction approaches through a thorough knowledge of advanced development techniques (competency C1.1 Emerging, grade A competent level, D beginner).

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: During this module, students will be divided into groups of 8, working together on reducing the drag of car prototypes. Each team will be in competition. At the end of the module, each team will provide a report and defend its work orally. This will lead to two evaluations (report and defense). The last one is the individual work mark related to the student's involvement in the project. Each part has the same weight.

Online resources

Course material on moodle

Pedagogy

Classes with active student participation are planned. These will aim to provide the minimum skills necessary to address the problem of drag reduction (imagine a solution, model it, manufacture it and validate it). About sixty hours are reserved for this. In addition, tailor-made courses are offered where each student will choose the skills they want to develop for their project group. A great deal of autonomous work will have to be done within the framework of the project. The evaluation will focus on the report and the presentation of the project, which should show the good organization of the group (in particular the project tutor will evaluate the skills brought by each member of the group through an individual working mark).

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	10
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	48
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Construction 4.0

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Course label :	Construction 4.0
Teaching departement :	MSO / Structures, Mechanisms and Construction
Teaching manager :	Mister ZOUBEIR LAFHAJ
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_CO4 - Construction 4.0

Education team

Teachers : Mister ZOUBEIR LAFHAJ
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	12
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	24
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Eco-design for positive energy habitat

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Course label :	Eco-design for positive energy habitat
Teaching departement :	CMA /
Teaching manager :	Mister STEPHANE BRISSET
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_EHE - Eco-conc. Habit. Energ. Posit.

Education team

Teachers : Mister STEPHANE BRISSET / Madam AMINA TANDJAOUI / Madam MARCIA CAROLINA ARAQUE MARIN / Mister ALEXANDRE MEGE REVIL / Mister BENJAMIN KATRYNIOK / Mister CHRISTOPHE VOLKRINGER / Mister SEBASTIEN PAUL
External contributors (business, research, secondary education): various temporary teachers

Summary

Ecodesign is a structured and rational approach based on standards and guides of good practice that enable engineers to design products and services that are more environmentally friendly: think globally, act locally. Its implementation requires a general knowledge of sustainable development, environmental issues, mineral and energy resources, technological solutions and European directives in order to anticipate future regulations. This teaching is built around a "common thread" case study that consists of positive energy housing in which we find the problems of eco-construction, electrical equipment, mechanical design and domestic chemistry. The development of knowledge and know-how is mainly done autonomously with group projects, a transmission of knowledge by peers with bibliographical subjects as well as practical workshops.

Educational goals

At the end of the course, the student will be able to: - Carry out a life cycle analysis (LCA) - Implement an ecodesign approach. At the end of the course, the student will have progressed in knowledge and skills: - Life cycle thinking or the need to design more completely by quantifying the environmental impacts from cradle to grave. - Knowledge of sustainable development issues in 4 industrial sectors: process engineering, electrical and electronic equipment, mechanical design and building in order to meet the requirements of positive energy housing. - Mastery of life cycle analysis software: Simapro (generalist but rather mechanical), EIME (generalist but rather electrical / electronic), COCON (building). - The implementation of a structured approach to reduce environmental impacts with identical services based on existing standards and guides of good practice. - Knowledge of end-of-life issues of products and buildings and recycling techniques.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Defenses and reports, multiple choice questionnaire.

Online resources

All materials including copy of slides, wording of practical work.

Pedagogy

This teaching is built around a "common thread" case study that consists of positive energy housing in which we find the problems of eco-construction, electrical equipment, mechanical design and domestic chemistry. The form includes: - Some lectures (19 hours / student) and practical work with life cycle analysis software (12 hours face-to-face + 4 hours in autonomy / student). - A workshop in each theme: electrical and electronic equipment, eco-construction, green chemistry, recycling (24 hours face-to-face + 24 hours in autonomy / student) - Individual bibliographic work and a group project (48 hours in autonomy) followed by defense in front of a jury of 4 teachers (10 hours face-to-face) - A visit to each theme: Waste treatment site for Electrical and Electronic Equipment (W3E) in Lesquin, eco-construction theatre in Loos-en-Gohelle, Textile recycling in Billy Berclau, Centre for organic reuse in Sequedin (10 hours face-to-face) Bibliographical topics are worked on individually and exposed to all students to share focuses on sustainable development themes and current events. Projects are conducted in groups of four students with practical work and the use of tools and approaches and then exposed to all students allowing constructive criticism at the end of the unit.

Sequencing / learning methods

Number of hours - Lectures :	3
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	37
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	60
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Energy approach and power transmission

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Course label :	Energy approach and power transmission
Teaching departement :	MSO / Structures, Mechanisms and Construction
Teaching manager :	Mister XAVIER BOIDIN
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_AET - Appr. énerg. et trans.puiss.

Education team

Teachers : Mister XAVIER BOIDIN / Mister CHRISTOPHE CUVIER / Mister DENIS LE PICART / Mister FREDERIC GILLON / Mister PIERRE HOTTEBART
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: toto

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	8
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	48
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Energy transition and electrical network

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Course label :	Energy transition and electrical network
Teaching departement :	EEA / Electrotechnics - Electronics - Control Systems
Teaching manager :	Mister XAVIER GUILLAUD
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_TER - Trans. energet. & reseau elec.

Education team

Teachers : Mister XAVIER GUILLAUD / Mister BRUNO FRANCOIS / Mister CHRISTOPHE CUVIER / Mister CHRISTOPHE SUEUR / Mister JEAN-MARC FOUCAUT / Mister MARTIN OBLIGADO / Mister PATRICK DUPONT / Mister SEBASTIEN PAUL / Mister XAVIER MARGUERON
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	10
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	48
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

From Generative Design to manufacturing

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Course label :	From Generative Design to manufacturing
Teaching departement :	MSO / Structures, Mechanisms and Construction
Teaching manager :	Mister DENIS LE PICART
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_GDM - From Generative Design to manu

Education team

Teachers : Mister DENIS LE PICART / Madam AMINA TANDJAOUI / Mister Frédéric Gillot / Mister LAURENT PATROUIX / Mister OLIVIER MAYEUR
External contributors (business, research, secondary education): various temporary teachers

Summary

Additive manufacturing, unlike traditional machining techniques, makes it possible to produce parts with complex geometries whose total weight can be optimized using a numerical method called "generative design". This method also allows to maximize the mechanical strength of the created part. Generative design is in fact a sub-field of numerical design which allows to find, thanks to mathematical formulas, the optimal material distribution in a given volume subjected to more or less important mechanical constraints. Generative design consists of "removing" the material where the forces do not pass through, using dedicated software, enabling Eco-Design of mechanical parts. The study of materials as well as recent means of manufacturing (rapid prototyping) are inseparable from topological optimization because they are strong constraints in the use of generative design tools. Indeed, materials selection, process selection and the geometry form a triptych that is essential to respect the requirements of a specification and to achieve the expected mechanical performance. Within today's context of energy efficiency and materials economy, those approaches are off special importance but lack maturity and broad dissemination. For this task, a life cycle assessment analysis (LCA) will drive the achievement of an eco-friendly mechanical part, thus taking into account all the life cycle stages. The objective of this course is to make the student aware of these problems and thus justify the interest of optimization tools.

Educational goals

The targeted competencies of the reference framework are as follows: The “Centralien” engineer creates value through scientific and technical innovation. The “Centralien” engineers master the complexity of the systems and problems they encounter.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Individual evaluation: multiple choice questionnaires and/or practical work reports. Group evaluation: defending results of the mini project Attendance and investment will be an essential component of the evaluation.

Online resources

Generative design software provided. Online resources of the software. Lessons, exercises et and self-evaluations on Moodle.

Pedagogy

The acquisition of knowledge will follow a red thread that will allow the student to assimilate all the different steps of the methodology. Theoretical results will be confronted with mechanical tests in order to verify their adequacy. Following this knowledge acquisition, students will have to solve an industrial problem in project mode.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	62
Number of hours - Practical work :	16
Number of hours - Seminar :	16
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	48
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Basis in CAD design. Basis in material behaviour.

Maximum number of registrants

Remarks

Keywords: Generative design ; Eco-design ; Mass gain ; Materials ; Manufacturing ; Rapid prototyping ; Aerospace ; Automotive ; Biomedical Engineering

High tech startup creation

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Course label :	High tech startup creation
Teaching departement :	ESO / Business and Society
Teaching manager :	Mister BADR JELIL
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_CSH - Création StartUp Haute Techno

Education team

Teachers : Mister BADR JELIL / Madam AMIRA CHAABANE / Mister ERIC DANIEL / Mister PASCAL YIM / Mister SEBASTIEN PAUL
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	40
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	24
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Learning by Sinking

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Course label :	Learning by Sinking
Teaching departement :	CMA /
Teaching manager :	Mister CHRISTOPHE CUVIER
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_ANA - Apprentissage par Naufrage

Education team

Teachers : Mister CHRISTOPHE CUVIER / Madam AMINA TANDJAOUI / Madam ANNE-LISE CRISTOL / Madam MARCIA CAROLINA ARAQUE MARIN / Madam MARIEM BHOURI / Mister ALEXANDRE MEGE REVIL / Mister BENJAMIN KATRYNIOK / Mister EDOUARD DAVIN / Mister LAURENT PATROUIX / Mister MARTIN OBLIGADO / Mister MATHIS BRIATTE
External contributors (business, research, secondary education): various temporary teachers

Summary

You are lost on a desert island. Civilization, if it still exists, is not reachable in the current state of affairs. Life for the survivors must be organised. It is of course your responsibility to put in place the technical tools that will allow everyone to have a decent life. So where do you start? You start by creating an oven. With this oven, you will of course be able to cook food, but above all you will be able to make materials (bricks, pottery, glass, metals and alloys), and then tools that will allow you to build other types of machines (machines producing mechanical work, transporting water, etc.) in order to regain your comfort. Of course, resources are limited. It is your duty not to repeat the mistakes of the current civilisation by overexploiting resources. All your constructions must therefore be in line with a sustainable design approach (renewable/recyclable materials, long life, high energy efficiency, etc.). In this module, you will therefore address different disciplines: Heat and Mass Transfer, Material Forming and oven, Space-Time tracing, Fluid Mechanics and Mechanics. The assessment of the module will be through your 2 projects that you will carry out throughout the module in 2 different areas (water, oven, space and time and fluid mechanics/mechanics).

Educational goals

At the end of the course, students will be able to: -To approach a problem either of heat transfer for the construction of an oven, or of water purification, or of space-time tracing, or of water transport or of production of mechanical work. From the specifications, he/she will be able to put into equation each function to be carried out, being aware of the consequences of each hypothesis made (competence C2.1: Represent and model, grade A competent level, D beginner) -Propose a functional prototype of the 2 subjects addressed by comparing its performance with the theory. The limits of each hypothesis will be known and discussed (competency C2.2: Solve and arbitrate, grade A competent level, D beginner). - To be critical about the use of resources in a sustainable design approach (competence C1.1 Emerge, grade A intermediate, D beginner).

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Moodle, Lectures/exercices, on demand activities, project monitoring, 3D printing, machining, laser cutting, foundry, Comsol, etc.

Pedagogy

The evaluation will be done through the 2 projects that you will have to carry out in parallel in two different poles. For each project, you will be given a mark for individual work and a mark for the prototype (average presentation and prototype quality). To be able to carry out your prototypes, you will have directly related lessons, one part in the common core, the other in selectable lecture or either proposed or requested by you.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	24
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	48
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

none

Maximum number of registrants

Remarks

Modeling for organizations management

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Course label :	Modeling for organizations management
Teaching departement :	MIN / Applied Mathematics and General Computing
Teaching manager :	Mister NORDINE BENKELTOUM
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_MMO - Modél. Managmt. Organisations

Education team

Teachers : Mister NORDINE BENKELTOUM / Madam CLAIRE BELART / Mister EMMANUEL CASTELAIN / Mister JEAN-PIERRE BOUREY / Mister Sire de Marc EBODE ONANA
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	96
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	24
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Reverse engineering & design thinking

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Course label :	Reverse engineering & design thinking
Teaching departement :	CMA /
Teaching manager :	Mister BENJAMIN KATRYNIOK
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_RED - Reverse engineering & design

Education team

Teachers : Mister BENJAMIN KATRYNIOK / Madam CATHY SION / Madam CHARLOTTE BECQUART / Mister DENIS LE PICART / Mister DENIS NAJJAR / Mister EMMANUEL DELMOTTE / Mister Sire de Marc EBODE ONANA
External contributors (business, research, secondary education): various temporary teachers

Summary

This course is based on the study of a concrete object to determine its internal functioning and/or manufacturing method. It is a multidisciplinary approach that includes the fields of mechanics, materials, electronics, marketing and entrepreneurship. The study will focus on concrete objects such as solar lamps, car jacks, drone, model aircraft, etc. Students learn how objects work and their weak points by disassembling them. They will also be a source of proposals for improvements.

Educational goals

At the end of the course, the student will be able to: - Understand a concrete object by looking at its functioning / design from multiple points of vies (mechanical, materials, electronics, marketing) - Identify weak points and propose improvements to concrete objects and quantify additional costs (may include an entrepreneurship component) Contribution of the course to the competency framework; at the end of the course, the student will have progressed in: - 2.4 Ability to identify interactions between elements - 1.5 Ability to collect and analyze information with logic and method - 3.1 Ability to understand all the scientific and technical dimensions of a project - 3.9 Ability to integrate quality / safety / environmental rules and standards

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Pedagogy: This teaching will be built around a common case study that consists in understanding how a concrete object (such as a 3D printer) works in all its complexity (electronics, software, mechanics, hydrodynamics, marketing) to propose improvements.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	18
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	48
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Science and Technology of Imaging and Instrumentation

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Course label :	Science and Technology of Imaging and Instrumentation
Teaching departement :	EEA / Electrotechnics - Electronics - Control Systems
Teaching manager :	Mister ABDELKRIM TALBI
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_DPT - Dvpt produits tech "DeepTech"

Education team

Teachers : Mister ABDELKRIM TALBI / Madam CECILE GUILMIN / Madam LINDA PEROUX / Mister AURELIEN MAZZAMURRO / Mister MOHAND SALAH MOUSSA / Mister OLIVIER MAYEUR / Mister OTHMANE MARBOUH / Mister Sylvain KERN / Mister VINCENT MAURICE
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	22
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	50
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Sport and Sciences

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Course label :	Sport and Sciences
Teaching departement :	MSO / Structures, Mechanisms and Construction
Teaching manager :	Mister LAURENT PATROUIX
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_SPS - Sport et Sciences

Education team

Teachers : Mister LAURENT PATROUIX / Madam AMINA TANDJAOUI / Madam PAULINE LECOMTE / Mister DENIS NAJJAR / Mister Fabien JONCKHEERE / Mister JEAN-MARC FOUCAUT / Mister Joris VINCENT / Mister OLIVIER MAYEUR / Mister RODOLPHE ASTORI / Mister YANNICK DUSCH
External contributors (business, research, secondary education): various temporary teachers

Summary

Since the inception of sport, performance improvement has been sought. The production of performance and the integrity of the athlete involves many dimensions whose combination is specific to each sport: physical qualities, coordination, technique, tactics, etc. With the democratization of sensors and new technologies, the use of connected objects in sport is becoming widespread not only in the practice of leisure activities with the "Quantified Self" (connected self-measurement) but also in high-level sport. Thus, athletes are using increasingly high-performance equipment, increasingly realistic training simulators and real-time monitoring of their progress, requiring the integration of many engineering science disciplines. Throughout this module, students will learn general concepts such as the history of sport or the physiology of the athlete and will deal more specifically with the theme of sport and science through two main aspects: - Optimization of equipment for sport and protection of the athlete - Performance monitoring and physiological sensors Scientific and technical topics: sensors, connected objects, electronics, materials, fluid mechanics, CAD and prototyping.

Educational goals

At the end of the course, the student will be able to: - Understand the field of sport, through the knowledge of its actors, economic data, regulations, and standards - Understand the physics, functioning and specificities of the means necessary for the development of equipment for athletes in various fields (design, sizing, materials sciences, information technology, electronics) - Analyze a need related to a sporting activity as a whole (equipment, sports, performance) in order to be able to evaluate a technical solution (optimization, training, measurement) - To mobilize its skills and technical knowledge to design and implement a solution to a sports problem. Contribution of the course to the competency framework; at the end of the course, the student will have progressed in: The student will have progressed in the C1 capacity (scientific and technological innovation) and the "Emerging" axis: The student will have progressed in his ability to lead a structured and global approach to the development of new products for the improvement of sports practice or the protection of athletes. It will also need to integrate a broad spectrum of scientific and technical knowledge and innovation skills to design a new product by positioning itself with a broad vision (scientific advances, industry and sports practitioners). In collaboration with the partners of the industrial and sports world modules, he will have progressed in his ability to analyse the need and implement creative methods to successfully carry out the project of developing a new product that he will support before a jury of professionals. The student will have progressed in C2 capacity (complexity of systems and issues) and the axis "Thinking and acting in an unpredictable and uncertain environment": The student will have progressed in his ability to understand, analyse and solve a complex problem through a global approach integrating the basic and engineering sciences, the human and social economics sciences through interactions with the various scientific actors, amateur and professional sports practitioners and industrial manufacturers of sports devices. It will therefore have to apply a global approach to solve a complex and cross-cutting problem. The student will have progressed in C3 ability (program management) and the "Pilot/Driving" axis: the engineer will have progressed in his ability to develop and conduct programmes in their entirety by steering all phases from development to implementation. Drawing on his technical expertise and transversal knowledge, he will integrate all aspects of the project in all its dimensions (scientific, technical, economic, human). He will improve his ability to work in a team and lead as well as structure a project and evolve with regard to the monitoring of indicators. The student will have progressed in C4 capacity (ethical and responsible management) and the "Generate individual and collective performance" axis. The student will have progressed in his or her ability. The student will have progressed in his ability to design, operate and develop systems and lead to a project taking into account all its dimensions with an ethical and responsible questioning. He will progress in his ability to identify the strengths and weaknesses of the team (in the field of scientific skills or behaviour).

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Continuous Evaluation: Practical courses, Case studies. Evaluation of the project by a jury composed of teachers and professionals in the field

Online resources

Pedagogy

This teaching will be built around a "common thread" case study that will focus on a specific sport discipline. The optimization aspects of the sports equipment will make it possible to put into practice and integrate skills in mechanical design, sizing, materials science, aerodynamics. In parallel, students will learn about the notions of athletic performance and the tools used to monitor performance (physiological parameter sensors, connected objects, etc.). Professionals in the field of sport or practitioners of the discipline will be involved and a visit to the company Dï¿œcathlon will also be made.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	10
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	55
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

The sound of Science

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Course label :	The sound of Science
Teaching departement :	EEA / Electrotechnics - Electronics - Control Systems
Teaching manager :	Mister MARC GOUEYGOU
Education language :	French
Potential ects :	7
Results grid :
Code and label (hp) :	G2_S7_EI_SSC - The Sound of SCience

Education team

Teachers : Mister MARC GOUEYGOU / Mister ABDELKRIM TALBI / Mister DAMIEN GRANGER / Mister OLIVIER BOU MATAR-LACAZE / Mister PHILIPPE PERNOD / Mister YANNICK DUSCH
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	24
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	48
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Living languages

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Chinese

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Course label :	Chinese
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam HAKIMA LARABI
Education language :	French
Potential ects :	1
Results grid :
Code and label (hp) :	G2_S7_SC_LVI_CHI - Chinois

Education team

Teachers : Madam HAKIMA LARABI / Madam SHUQUN ZHANG
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	12
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	6
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

English

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Course label :	English
Teaching departement :	LVI / Foreign Languages
Teaching manager :
Education language :	French
Potential ects :	1
Results grid :
Code and label (hp) :	G2_S7_SC_LVI_ANG - Anglais

Education team

Teachers : / Mister SIMON DAVIES / Mister STEPHEN ROSKELL / Mister THIERRY RIBALS
External contributors (business, research, secondary education): various temporary teachers

Summary

Groups may be modified to take into account student progression. Deepening of skills and linguistic performances, often (but not always) acquired in the context of "immersions", of varying length, in contexts of the target language. Enlargement to: - job search / internship - more broadly "cultural" themes, in the broad sense of the term

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Continuous assessment

Online resources

Class materials Online Resources Linguistic platform: https://portal.gofluent.com

Pedagogy

In class, in groups based on language levels; out-of-class work on the digital platform. Including TOEIC preparation

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	12
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	6
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

The course carries on from teaching in S5 and S6.

Maximum number of registrants

Remarks

French foreign language

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Course label :	French foreign language
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam HAKIMA LARABI / Madam VERONIQUE DZIWNIEL
Education language :	French
Potential ects :	1
Results grid :
Code and label (hp) :	G2_S7_SC_LVI_FLE - Français Langue étrangère

Education team

Teachers : Madam HAKIMA LARABI / Madam VERONIQUE DZIWNIEL
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	12
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	6
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

German

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Course label :	German
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam HAKIMA LARABI
Education language :	French
Potential ects :	1
Results grid :
Code and label (hp) :	G2_S7_SC_LVI_ALL - Allemand

Education team

Teachers : Madam HAKIMA LARABI / Madam BEATE AHREND / Madam PETRA MARIA HILLEKE
External contributors (business, research, secondary education): various temporary teachers

Summary

LV2 groups may be modified to take into account student progression. Deepening of skills and linguistic performances, often (but not always) acquired in the context of "immersions", of varying length, in contexts of the target language. Enlargement to: - job search / internship - more broadly "cultural" themes, in the broad sense of the term Possible preparation for the certification of the German Goethe Zertifikat B2 or C1 The educational material offered by goFLUENT is more oriented towards oral and written comprehension, as well as grammatical and lexical revision or improvement. In parallel, classroom-based courses encourages oral and written production above all, and focusses on notions not acquired in autonomous learning. The 2 approaches are thus complementary.

Educational goals

At the end of the semester, students will be able to: - write a CV in paper and video format and update it as it evolves on a personal and professional scale - undergo a job interview / internship - write a cover letter in the target language based on an authentic offer and other miscellaneous documents (reports, etc.) - improve various skills, including soft skills - obtain a German certification (level B2) Contribution of the course to the competency framework: at the end of the course, students will have progressed in taking into account the cultural specificities of partners during a project (3.8), and in international management and responsible for their ability to take into account the international dimension ( 4.8). They will also have made progress in their capacity to innovate in a foreign language (1.1, 1.3), the need to develop working methods, to organize tasks (3.5).

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Continuous assessment Comments: - Evaluation of an oral production exercise (eg pitch, solo or in groups and with ï¿œ or without ï¿œ a debate - Evaluation of a written production exercise composed in class or as a homework - Validation or evaluation of the work (written and oral comprehension, grammatical and lexical exercises) carried out on the digital platform.

Online resources

Class materials Online Resources Linguistic platform: https://portal.gofluent.com

Pedagogy

The educational material offered by goFLUENT is more oriented towards oral and written comprehension, as well as grammatical and lexical revision or improvement. In parallel, classroom-based courses encourages oral and written production above all, and focusses on notions not acquired in autonomous learning. The 2 approaches are thus complementary. A deepening of language skills and performance is often (but not always) acquired by "immersions" of varying lengths, in the context of the target language. "Cultural" widening to: - Training and personal development - The notion and world of work and its transformations - The world of business and its marketing strategies In class, in groups based on language levels; out-of-class work on the digital platform.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	12
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	6
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

The course carries on from teaching in S5 and S6.

Maximum number of registrants

Remarks

German

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Course label :	German
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam HAKIMA LARABI
Education language :	French
Potential ects :	1
Results grid :
Code and label (hp) :	G2_S7_SC_LVI_RUS - Russe

Education team

Teachers : Madam HAKIMA LARABI
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	12
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Italian

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Course label :	Italian
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam HAKIMA LARABI
Education language :	French
Potential ects :	1
Results grid :
Code and label (hp) :	G2_S7_SC_LVI_ITA - Italien

Education team

Teachers : Madam HAKIMA LARABI
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	12
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	6
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Japanese

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Course label :	Japanese
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam HAKIMA LARABI
Education language :	French
Potential ects :	1
Results grid :
Code and label (hp) :	G2_S7_SC_LVI_JAP - Japonais

Education team

Teachers : Madam HAKIMA LARABI / Madam FUMIKO SUGIE
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	12
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	6
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Portuguese

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Course label :	Portuguese
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam ALEXANDRA BRANCO BERGEZ / Madam HAKIMA LARABI
Education language :	French
Potential ects :	1
Results grid :
Code and label (hp) :	G2_S7_SC_LVI_POR - Portugais

Education team

Teachers : Madam ALEXANDRA BRANCO BERGEZ / Madam HAKIMA LARABI
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	12
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	6
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Spanish

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Course label :	Spanish
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam ALEXANDRA BRANCO BERGEZ / Madam HAKIMA LARABI
Education language :	French
Potential ects :	1
Results grid :
Code and label (hp) :	G2_S7_SC_LVI_ESP - Espagnol

Education team

Teachers : Madam ALEXANDRA BRANCO BERGEZ / Madam HAKIMA LARABI
External contributors (business, research, secondary education): various temporary teachers

Summary

LV2 groups may be modified to take into account student progression. Deepening of skills and linguistic performances, often (but not always) acquired in the context of "immersions", of varying length, in contexts of the target language. Enlargement to: - job search / internship - more broadly "cultural" themes, in the broad sense of the term The educational material offered by goFLUENT is more oriented towards oral and written comprehension, as well as grammatical and lexical revision or improvement. In parallel, classroom-based courses encourages oral and written production above all, and focusses on notions not acquired in autonomous learning. The 2 approaches are thus complementary.

Educational goals

At the end of the semester, students will be able to: - write a CV in paper and video format and update it as it evolves on a personal and professional scale - undergo a job interview / internship - write a cover letter in the target language based on an authentic offer and other miscellaneous documents (reports, etc.) - improve various skills, including soft skills Contribution of the course to the competency framework: at the end of the course, students will have progressed in taking into account the cultural specificities of partners during a project (3.8), and in international management and responsible for their ability to take into account the international dimension ( 4.8). They will also have made progress in their capacity to innovate in a foreign language (1.1, 1.3), the need to develop working methods, to organize tasks (3.5).

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Continuous assessment.

Online resources

Class materials Online Resources Linguistic platform: https://portal.gofluent.com

Pedagogy

In class, in groups based on language levels; out-of-class work on the digital platform.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	12
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	6
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

The course carries on from teaching in S5 and S6.