Post on 16-Apr-2017
MetaMath 23rd June 2014 Moscow
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KEY-FIGURES
• 39 000 students
• More than 300 degree-granting programs
• 9 250 graduates per year
• 12% foreign students from 124 countries
• 5 000 employees
• Budget of 390 million Euros
• 13 geographical sites
• 13 faculties
The Claude Bernard University Lyon 1:
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INTERNATIONAL OUTREACHLyon 1 is highly active internationally. The institution seeks to
develop partnerships both in developed and developing countries.
• Erasmus : 450 subject agreements with 260 universities in 25
countries
• 50 teaching staff exchanges per year
• 141 active partnering agreements with 41 countries
• 1 400 student mobility grants per year
• 15 dual and joint degree programs
• 7 consortia, 13 associated international laboratories
• 1 000 outgoing students
• 3 500 incoming foreign students
• 144 students co-tutored for PhD thesis
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POTENTIAL PARTNERS
• Polytech Lyon
• Master « Math in action, from concept to innovation »
• INSA de Lyon • École Centrale de Lyon
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A 5-year post-baccalaureate course of excellence in engineering
Baccalaureate in scienceor equivalent
First cycle2 years
Second Engineering cycle3 years2nd year CPGE,
L2 or L3 DUT and BTS or equivalent
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2
3
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M 1 Master’s degreeor recognized equivalent
1st year CPGE, L1 or equivalent
Engineering degreeMaster’s level
CAREER
PhD
Master’s degree in Research
TRAINING
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6 majors:Biomedical Engineering
Computer ScienceMaterials Sciences
Mechanical EngineeringModeling and Applied
MathematicsIndustrial Engineering
and Robotics
200 students/year 20 % female 30 % social grants
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L1
L2
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L1
L2
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Real NumbersWell ordering, density of Q, n-th root, the field of Real numbers, absolute value, integer part
SequencesMathematical induction, arithmetic and geometric sequences, recursive definition, linear recursive definitions, monotony, limits, properties of limits, subsequences, lim inf and lim sup, the Cauchy criterion, complex sequences, real approximations
Functions of a real variableDefinitions, terminology, examples, affine functions, power functions, absolute value, integer part, other functions, limits, properties of limits, continuity, fundamental theorems, monotony and continuity, exponential, logarithm and power functions, equivalence of functions, derivability, usual functions and their derivatives, fundamental theorems of derivability
Differential equationsLinear homogeneous equations of order 1, inhomogeneous linear equations of order 1, finding particular solutions
Circular and hyperbolic functions and their reciprocalSin, cos, arcsin, arcocs, arctan, sh, ch, argsh, argch, argth, formulae
Calculus 101 first course in « real math » 6ECTS
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Functions and their inverses• define a function, its domain and its range• use the notation f(x), x|--> f(x)• determine the domain and range of simple functions• relate a pictorial representation of a function to its graph and to its algebraic definition• determine whether a function is injective, surjective, bijective• understand how a graphical translation can alter a functional description• understand how a reflection in either axis can alter a functional description• understand how a scaling transformation can alter a functional description• determine the domain and range of simple composite functions• use appropriate software to plot the graph of a function• obtain the inverse of a function by a pictorial representation, graphically or algebraically• determine the domain and range of the inverse of a function• determine any restrictions on for the inverse to be a function• obtain the inverse of a composite function• recognise the properties of the function• understand the concept of the limit of a function.Sequences, series, binomial expansionsLogarithmic and exponential functionsRates of change and differentiationStationary points, maximum and minimum values
Calculus 101 first course in « real math » 6ECTS
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Real NumbersWell ordering, density of Q, n-th root, the field of Real numbers, absolute value, integer part
SequencesMathematical induction, arithmetic and geometric sequences, recursive definition, linear recursive definitions, monotony, limits, properties of limits, subsequences, lim inf and lim sup, the Cauchy criterion, complex sequences, real approximations
Functions of a real variableDefinitions, terminology, examples, affine functions, power functions, absolute value, integer part, other functions, limits, properties of limits, continuity, fundamental theorems, monotony and continuity, exponential, logarithm and power functions, equivalence of functions, derivability, usual functions and their derivatives, fundamental theorems of derivability
Differential equationsLinear homogeneous equations of order 1, inhomogeneous linear equations of order 1, finding particular solutions
Circular and hyperbolic functions and their reciprocalSin, cos, arcsin, arcocs, arctan, sh, ch, argsh, argch, argth, formulae
Calculus 101 first course in « real math » OK
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Real NumbersWell ordering, density of Q, n-th root, the field of Real numbers, absolute value, integer part
SequencesMathematical induction, arithmetic and geometric sequences, recursive definition, linear recursive definitions, monotony, limits, properties of limits, subsequences, lim inf and lim sup, the Cauchy criterion, complex sequences, real approximations
Functions of a real variableDefinitions, terminology, examples, affine functions, power functions, absolute value, integer part, other functions, limits, properties of limits, continuity, fundamental theorems, monotony and continuity, exponential, logarithm and power functions, equivalence of functions, derivability, usual functions and their derivatives, fundamental theorems of derivability
Differential equationsLinear homogeneous equations of order 1, inhomogeneous linear equations of order 1, finding particular solutions
Circular and hyperbolic functions and their reciprocalSin, cos, arcsin, arcocs, arctan, sh, ch, argsh, argch, argth, formulae
Calculus 101 first course in « real math » Attention needed!
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Applied mathematics in numerical and stochastic modelling
3 majors:•Environment and Geoscience, from models to prediction
•Fluids and materials, from physics laws to operational math
•Biomathematics, theory and application
Master Math in action
Courses possible in English
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M2 Applied mathematics in numerical and stochastic modelling
Master Math in actionSemester 3Semester 3
Applied calculus : from laws of physics to functional analysis 12ECTSStochastic & Statistical Modelling 12ECTS
Environnement & Geosciences : Geostatistics 3ECTSMaths for Biologie & Medecine : Proteins Dynamics 6ECTS
Fluids & Materials : Physics 3ECTS
Semester 4Semester 4
Matematical Engineering Internship 18ECTS
Environnement & Geosciences :
Spatial stochastic models 9ECTSFluids : modeling, analysis & numerical implementation 6ECTS
Maths for Biologie & Medecine :
Population dynamics : application to cell populations 6ECTSStatistics in high dimension for genomics big-data 6ECTS
Fluids & Materials :
Fluids : from microscopic to macroscopic 9ECTSDefects & interfaces 6ECTS
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Objective 01
Your answer :Not at all 0 1 2 3 4 5 Yes indeedI don't know : N
Your answer1 Mathematics have an interest, especially for solving concrete problems
2 Mathematics are used primarily to model phenomena
3 Mathematics explain facts in reality
4 Mathematics are used mostly in technical domains
5 Mathematics are useless in everyday life
6 Only applied mathematics are interesting
7 Mathematics are useful in all sciences
8 Mathematics serve no purpose in human sciences
9 Human relationships can not be explained by mathematics
10 Natural phenomena are too complex to be apprehended by mathematics
11 Mathematics can be applied to man crafted objects and much less to objects found in nature
12 Learning mathematics in early classes serves mostly the purpose to help the children get around in life
A questionnaire about conceptions on mathematics, for students, teachers, professionals
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Objective 02
1 In engineer school, mathematics are mostly pure and abstract
2 We need more applied mathematics in engineer training
3 In engineer school, theory are taught without taking into account their applications
4 Math teachers think they possess truth
5 There is almost no connection between math teaching and the engineer job reality
6 Math teaching doesn't try to establish links with other sciences
7 Mathematics weight too much in engineer training
8 Mathematics can not be avoided in engineer training
9 A teacher only purpose is to bring knowledge to students
10 The structure of math courses doesn't allow learning autonomy
11 With new means available to students, learning is no longer required, one just has to quickly find solutions to problems that are encountered
12 Math teaching evolves according to changes in society, for example integrating new technology
13 Courses haven't changed in the last decades when the world is evolving greatly and fast
14 Math teaching for engineers is a one way process: knowledge flows from the teacher to the students
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Objective 03
1 In mathematics, there is nothing left to discover2 Mathematics are only a tool for science3 Mathematics objects are not real4 Three is no room for creativity and imagination in mathematics5 Mathematics raised from concrete needs6 There is no room for uncertainty in mathematics7 Only math can approach truth8 Mathematics are only an abstraction, they don't deal with reality9 Mathematics necessarily mitigate what they model10 Mathematics really explain only what is man made11 A mathematical model is necessarily limited12 A mathematical theory can not be refuted13 Mathematics have no meaning in real life, they don't represent anything real14 Mathematics can not be the subject of a conversation (contrarily to literature or philosophy)15 Mathematics are better left to experts and initiated people16 Mathematics are a human construction17 Mathematics are universal18 Mathematics only approximate and mitigate what they study19 To be good at math means to be good at everything20 Usual words have the same meaning in real life and in math sentences21 In mathematics, it's possible to find new theories
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International relations
• Numerous exchange agreements Numerous exchange agreements within Europe, with Canada, USA, Latin America (Brazil), and lately China.
• More than 20 agreements More than 20 agreements signed with foreign universities and companies.
• >20% of a class >20% of a class carry out their 5th year 6 month internships abroad or are part of an exchange program (semester or year abroad)
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École Centrale de Lyon
• Centrale graduate school network Centrale graduate school network Paris, Lille, Nantes, Marseille, Beijing.
• Acoustics, bioscience, nanotechnologyAcoustics, bioscience, nanotechnologyEst. 1857
Imperial College London
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Modeling & Applied MathematicsGoals :Goals :To train engineers with specific competences in : the modeling of complex problems, the understanding of their fundamental aspects, the devising of the numerical implementationof these solutions
Strong points :Strong points :Multidisciplinary training covering a wide scope of applied mathematics and providing a good command of IT, particularly in connection with parallel architectures, statistics and probabilities, numerical analysis, computer science.
Branches of industry :Branches of industry :In France and abroad:food processing, insurance, banking, mass marketing, computerscience, pharmaceutical laboratories marketing, transport,space research, communication etc...
Facilities :Facilities :Available at CDCSP (Centre pour le Développement du Calcul Scientifique Parallèle) : a four-processor SGI Altix 350, one 32 processor Compaq Sierra server, one 10 bi-processor beawolf server.Fourth and fithyear students are provided with lap -top computers.
Typical positions of graduates in France and abroad:Typical positions of graduates in France and abroad:• Modeling and parallel computing of coastal flows• Financial engineering
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Mechanical Engineering Goals :Goals :To train engineers with specific competences either in fluid mechanics and energetics, or in solid and structure mechanics, for :Conception, modeling and computing, research and development consultancy.
Strong points :Strong points :Multidisciplinary training in keeping with the great variety of job opportunities in the mechanical industry, with special emphasis on modeling and the numerical simulation of industrial problems.
Branches of industry :Branches of industry :automobile, aeronautic and space industry, process engineering, the environment and energy production...Engineering and Design departments.Research and development centers of bigmanufacturing companies.
Facilities :Facilities :Polytech Lyon own newly-equipped lab-work rooms and access to the experimental platforms of the University research laboratories.
Typical positions of graduates in France and abroad:Typical positions of graduates in France and abroad:• Modeling and CFD of processes• Production and industrial engineering
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Material SciencesGoals :Goals :To train engineers with specific competences in : Materials sciences Surface sciences (their properties, treatment and modification) Computer aided design and modeling
Strong points :Strong points :Multidisciplinary training in materials sciences and surface engineering, multi-materials and composite materials, formulation, implementation and transformation of materials (polymers, metals, ceramics, and biomaterials), numericalmethods, coating and surface treatment.Access to a double diploma : Polytech Lyon diploma and MS
Branches of activity :Branches of activity :Companies specializing in surface treatment, in multimaterials and compositematerial engineering, in the implementation of materials, and in the control of their properties.Private or public R&D centres.Consultancy companies in engineering and technology transfer.
Facilities :Facilities :An IT platform of 30 computers distributed between Lyon ‘Atelier Inter Productique’ (AIP) and Polytech Lyon, with 3D design and simulation software.Instruments for materials structure and surface characterization : electronic microscopes, near field microscopy, X-ray diffusion and diffraction...Devices for materials and surface implementation : instrumentedextruders, surface treatment by plasma....
Typical positions of graduates in France and abroad: Typical positions of graduates in France and abroad: • R&D• Production
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Industrial Engineering & Robotics
Goals :Goals :To train engineers with multidisciplinary technical competences in a variety of domains associated with
production : mechanics, hydraulics and electronics automation and numerical techniques Production management, quality, control and general management
Strong points :Strong points :A wide scope of competences fostering adaptability to a great variety of industrial branchesBranches of industry :Practically all sectors of manufacturing : the automobile industry, aeronautics, the chemical industry, the
textile industry, metallurgy, food processing, information technology etc...
Facilities :Facilities :Free access to the modern and spacious Diderot technopole of Greater Roanne. Free access IT platform of
50 computers equipped with the latest scientific and management software.An instrumented and automated technological platform for industrial processes. Weekly access to Lyon
‘Atelier Inter Productique (AIP) to study the robotization and visual techniques of production.Strong support of the district (grants premises, and student accomodation...).
Typical positions of graduates in France and abroad:Typical positions of graduates in France and abroad:Design engineerProduction manager
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Computer ScienceGoals :Goals :To train system analysts and engineers specialized in computer systems for the management of companies.
Strong points :Strong points :Multidisciplinary training focusing on IT ( designing, developing and implementing information systems for the management of companies and institutions ) The School relies on world leaders in IC T.
Branches of Industry :Branches of Industry :Graduates of Polytech Lyon have access to all jobs related to information systems in all sectors.
Facilities :Facilities :Almost 25% of the courses are given by IT executives and specialists of topical domains . Software, widely spread in companies such as Oracle, Cognos, SAS, Arena etc… are used. Students have access to aWifi-equipped building with 140 computers connected byWLAN and2 rooms specially designed for network system training.
Typical positions of graduates in France and abroad:Typical positions of graduates in France and abroad: Jobs related to information systems : software engineers, application programmers or
computer systems administrators Jobs related to technical and technological approaches such as : database
administrators, webmasters, help desk engineers, decision-making experts, ICT consultants, project managers, and engineers specialized in ‘quality’ or ‘safety’
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Biomedical EngineeringGoals :Goals :To train engineers capable of : shaping, implementing and controlling investment and maintenance
policies of biomedical facilities.
Strong points :Strong points :This multidisciplinary and highly professional training in connection with the Lyon Hospital Complex
clearly focuses on medical instrumentation i.e. medical scanning and hospital technical platforms.
Branches of activity :Branches of activity :Hospitals and clinics, or companies which develop medical instruments for health and biology, health
organizations (AFSSAPS, GMED etc…)Institutions at various levels (local and regional authorities). Companies etc…
Facilities :Facilities :Experimental facilities for lab work in electronics, measurements and instrumentation. Students have
access to the facilities of the research labs of nearby hospitals and clinics (scanning, ultra sounds and nuclear physics).
Typical positions of graduates in France and abroad:Typical positions of graduates in France and abroad:Engineer in a hospitalSales engineer in medical instrumentation
• R&D engineer in biomedical instrumentation• Technical advisor
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A short presentation of Polytech Lyon
Engineering School of the University Lyon 1
Director : Pascal FOURNIERDeputy Director : Fabienne OUDIN
Contact for International Relations :International Relations Executive Director
Didier LEONARD didier.leonard@univ-lyon1.frinternational@polytech-lyon.fr
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The student unions
help new students, enhance school spirit, organize numerous
sports, cultural events and also meetings with alumni and professionals.
• Alumni
• Arts office – danse, music, photography, theater …
• Sports office
• Students office – parties and events
• FORUM ENTREPRISES – job search
• IDEE – welcoming and animation for foreign students
• 4L Trophy
• POLYENCO - junior industry Polytech Lyon
• RIR ROBOTIQUE
• TIMISTIL - Shell Eco-marathon
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Scientific and technical trainingBachelor – Master - Doctorate
Physical Education and SportsScience and Techniques
ObservatoryTeacher training
Engineering schoolPolytech Lyon
Institute of FinancialScience and Insurance
Faculty of Science and Technology
University Instituteof Technology
TEACHING
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RESEARCH
The Claude Bernard University Lyon 1 is a multidisciplinary institution that is involved in basic research and its applications.
It currently has 69 research laboratories whose work focuses in particular on the areas of health, environment and materials.
The leading French university in patentsMore than 4 500 international publications per year
40 patent applications per year
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INTERNATIONAL OUTREACHLyon 1 is highly active internationally. The institution seeks to
develop partnerships both in developed and developing countries.
• Erasmus : 450 subject agreements with 260 universities in 25
countries
• 50 teaching staff exchanges per year
• 141 active partnering agreements with 41 countries
• 1 400 student mobility grants per year
• 15 dual and joint degree programs
• 7 consortia, 13 associated international laboratories
• 1 000 outgoing students
• 3 500 incoming foreign students
• 144 students co-tutored for PhD thesis
32
Vice-presidentDenis BOURGEOIS
Administrative and financial management
Naïma SEFOUANE
Mobility grants
Sandrine GUERTENER
Virginie PENEL
Mobility in Europe outside Europe
Catherine CarolineGUILLAUMON GREMY
Communications
Audrey CHENEVIER
Cooperation
Sabrina BAULARD
Administrative Director
Olivier GRANGE
Presentation of the International Relations Department
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International Relations Department
2 Project Managers in charge of the international
relations
The International Relations Offices
The Director of the faculty
1 International Mobility Correspondent
1 International Mobility Administrative Assistant
International Relations : Partners
BOREALForeign students
orientation office of Lyon 1
EURAXESS
(Université de Lyon:
federation of 20 Higher
Education Institutes)
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STUDENT LIFE
Cultural activities, sports and physical activities, involvement of students in university life, Lyon 1 university offers an active and rewarding life student experience.
The quality of life for students at the Claude Bernard University Lyon 1 is also closely linked to the activities of more than fifty clubs spread over the different campuses.
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QUALITY OF LIFE
• Listed a World Heritage Site by UNESCO in 1998• Rich historical heritage: 2,000 years of history
• Dynamic culture and arts scene: Museums, Theatre, Opera, Festival of Lights, Dance Biennial, Biennale of Contemporary Art, etc.
• Paris is 2 hours away, the Mediterranean just an hour and half• Within easy reach of a wide variety of areas of outstanding beauty: mountains (Mont
Blanc), vineyards, gentle valleys, the largest lakes in France (Lake Geneva, Lake Bourget and Lake Annecy).
Lyon:
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LYON 1 TOMORROWOngoing development of major modernization projects, with the foundations laid and the launch of specific work; improved services for staff and students ... Lyon 1 will be present at all the key events to maintain its attractiveness.
The Claude Bernard University Lyon 1 is committed to sustainable development. First, the institution maintains an inventory of the environmental, social and economic performance of its campus. Secondly, it has long-term commitments to a range of approaches that will ensure the sustainable development of the university.
The University has signed up to an ambitious policy for improving its teaching and education innovation using the tools of tomorrow. The use of 3D is an asset in the learning process because it provides animated representations of events and processes.
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CONTACT
Université Claude Bernard Lyon 1Direction des Relations Internationales
8 avenue Rockefeller69008 Lyon
France
http://www.univ-lyon1.fr/international/
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38INSA Lyon,
Humanism and diversity, The real basis of its identity
of students receive grants31%of engineering students are girls32%
of students are foreigners20%National network: Toulouse, Strasbourg,
Rennes, Rouen, Orléans, Bourges
39 CAMPUS & STUDENT LIFE
INSA Lyon,
A university town, with intense associative life
residences (3,100 beds)11catering units (1,000,000 meals per year)3
Students’ House with a surface of 1000 m21
40 INTERNATIONAL
nationalities represented100
INSA Lyon,
A major school open to the world
Over
international courses
(ASINSA, AMERINSA, EURINSA, SCAN)
4Over
partneruniversities
250
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engineering courses
12 TRAINING
Biochemistry and Biotechnologies
Bioinformatics and Modelling
Civil Engineering and Urban Development
Energy and Environmental EngineeringElectrical Engineering*
Mechanical Engineering Design*
Mechanical Engineering DevelopmentMechanical Engineering Plastics Processes*Industrial EngineeringInformation Technology
Sciences and Material Engineering
Telecommunications services and uses
A second training cycle
* Apprenticeships and sandwich courses are also available
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students
graduates every year,with 900 engineers in 12 specialist fields
5,40034,000
INSA engineers throughout the world
1,300
An engineering school of excellence
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for engineers in France (“Usine Nouvelle” ranking 2012)
for engineers in France 50th position in Europe and 149th position in the world
(QS World University Rankings 2012 – “Engineering & Information Technology” category)
for post B.Sc. engineers in France (Students’ Best – “L’Express” 2012)
1st school
3rd school
4th school
for engineers at the forefront of research (“Industrie & Technologies” 2012)
4th school
INSA Lyon,
At the top of the rankings
44 TRAINING
Masters(MSC : masters of Science)11
Specialist Masters
(MS)
9Doctorate Schools8
And a 3rd cycle course
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• Teaching given by professionals
• Training periods in companies throughout the courses
• Projects in partnership with industry
INSA Lyon
Training closely linked with industry
• An Engineer-Entrepreneur course
A partnership foundation for developing INSA Lyon
INDUSTRY
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• Average time needed for finding a 1st job: 1.2 months• 76% have found a job in less than two months
• Annual starting salary: 36 K€• 83% have a job of non-determined duration
• 96% of jobs have executive status
• 12% of 2010 graduates have found their first job abroad
*source: job placement enquiry 2012: 2011 graduates
INDUSTRY
Graduate employment figures
47 INTERNATIONAL
Representational offices Shanghai, Curitiba, Mexico, Hô-Chi-Minh-Ville and Sendai5
Over
78%30%of foreign students received every year
INSA student engineers
in immersion abroad every year
48 RESEARCH
with 21 laboratories
INSA Lyon, a major school and …
A research and innovation centre
Research centres
6
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INSA Lyon, a major school and …
A research and innovation centre
659
632
RESEARCH
Researcher-teachers andresearchers
Doctoralstudents
50 R&D
INSAVALOR, R&D subsidiary, The INSA Lyon enhancement and permanent training unit
industrial contracts, with over 835 50%
patents registered since 2007*60start-ups created since 2007*16
*in the name of INSA Lyon or one of its researcher-teachers
in services
51 CAMPUS & STUDENT LIFE
INSA Lyon,
A university town, with intense associative life
Clubs and associations130
Theatre/auditorium managed by students1
52INSA Lyon,
At the heart of the INSA Group
Rennes Created in 19661,700 students Rouen
Created in 19851,600 students
Toulouse Created in 19632,200 students
Strasbourg Created in 20031,600 studentsLyon
Created in 19575,400 students
+ 2 INSA partners: The Ecole Nationale Supérieure d’Ingénieurs at Bourges (ENSIB) and the Ecole Nationale Supérieure de Céramique Industrielle at Limoges (ENSCI).
Opening on Jan 1st 2014: The INSA Centre Val de Loire, the 6th INSA