Upload
janahvi-janardhan
View
38
Download
1
Tags:
Embed Size (px)
DESCRIPTION
brochure
Citation preview
Masters PROGRAMMEENGINEERING sciences
ecOLe centraLe Par isLeader, entrepreneur, innovator
a sPringbOard Of exceLLence tOward careers in acadeMic and industriaL research
Energy
Applied Mathematics &Information Science
Applied Sciences
Business Sciences: industrial Engineering
Nuclear Energy
5 theMatic fieLds
Contentsa word from the dean of studies 4reasons to complete a Masters at cole centrale Paris 4enrolling in a Master: requirements and Procedures 5thematic fields and specializations 6
energy 10
M1 energy 12 M2ThermalScience 14 M2EnergyMaterialsandProcesses 15 M2Electrification&VehiclePropulsion 16
applied Mathematics & information science 18
M1 applied Mathematics & information science 20 M2Modelling&Simulation 22 M2AppliedMathematics:Vision,Learning 23 M2Design&ManagementofComplexComputerSystems 24 M2Synthetic&SystemicBiology 25 M2HighPerformanceComputing 26
applied sciences 28
M1 applied sciences 30 M2Processes,Environment,&Biotechnology 32 M2Nanoscience 34 M2Dynamics,Structures,Materials&CoupledSystems 36 M2Civil&EnvironmentalEngineering 38 M2AerospaceEngineering 40
business sciences: industrial engineering 42
M1 business sciences: industrial engineering 44 M2DesignEngineering&Management 46 M2OrganizationalModeling&DesignManagement 48 M2Industrial&LogisticsSystemsOptimization 50nuclear energy 52
M1 nuclear energy 54 M2NuclearReactorPhysicsandEngineering 56 M2NuclearPlantDesign 58 M2Operations 60 M2FuelCycle 62 M2DecommissioningandWasteManagement 64
academic administration 66Professional Placement & internships 66field & specialization coordinators 68doctoral studies 76Laboratories 80
coleCentraleParisisknownthroughoutEuropefortheexcellenceof itsengineeringtraining,basedoninnovativerecruitmentandpedagogyanddesignedtodevelopscientificandtechnicalskillsthroughamulticulturalapproachthatisintunewiththebusinessworldandgearedtowardconfronting21stcenturyglobalchallenges.ThesemethodshavebeenatthecoreofthesuccessofCentralesengineeringtraininginleadership,innovation,andentrepreneurshipforover180years.Thistrainingforexcellenceisconstantlydevelopingandexpanding,notablyinthedomainofresearch,whichiscomprisedofMastersprogrammes,theDoctoralSchool,andresearchlaboratories.coleCentraleParisprovidesitsstudentswithauniqueanddynamicframework: AnexpandingResearchCenter,andindustrialR&Dpartnerswhoproposeveryexcitingsubjectsforprojects,internships,anddoctoraltheses
VerystrongscientificandindustrialpartnershipsinalloftheMastersprogrammes
Astrongtraditionofopennesstointernationaldynamics,foreignculturesandthesocialsciences
Astrongtraditionofexcellenceinhumandevelopmentandscientifictraining
Acompanyincubatorthatisconstantlyexpandingitscapacity
AccesstotheECPGraduatesorganizationwithinthecoleCentraleParisalumninetwork.
graduates find a wide range of career opportunities available to them, from r&d, to company start-ups, to fundamental research. cole centrale Paris provides its students with all the resources necessary to ensure excellence and success in their professional careers.
theMasters Programme at cole Centrale Paris are high-level trainingprogrammesopen toEuropeanandother internationalstudentsholdingan undergraduate degree, as well as to students at the end of theirengineeringcurriculum.Students successfully completing theseprogrammesare awarded a FrenchMasters degreewhich is recognized internationally ascorrespondingtotheEuropeanMlevel.Theseprogrammespreparestudentseitherforfurtherstudyatthedoctorallevelorfordirectplacementinhigh-levelpositions in leadingcompanies.TheMastersprogrammes in theEngineeringSciencesatCentralePariswasrestructuredforthe2010-2014periodaround5fieldsand21specializations,whichreflectitsmajorlinesofresearch,inkeepingwiththechangingneedsofitsacademicandindustrialpartners.The5fieldsarethefollowing: Energy
AppliedMathematicsandInformationSciences
AppliedSciences
BusinessSciences:IndustrialEngineering
NuclearEnergyTheMasters programmebuilds on the core coursesand specializations in thefinal-year of thegraduate-levelengineerdiplomawithotherinstitutionsofhighereducation.TheMastersprogrammeisdividedintofields,specializations,andcareerpaths: Thefieldsrefertodisciplinesandprofessionaldomains
SpecializationsinM2enablestudentstofurtherdevelopspecificareasofresearchorapplication.
WithinM1andM2,curriculamaybefurthercustomizedtocreatecoherentcareerpaths
the Masters prograMMe at Cole Centrale parisa sPringbOard Of exceLLence tOward careers
in acadeMic and industriaL research
Martine cazier,dean of studies
4
hichem dammak,coordinator of the
Masters Programme
5
enrolling in a Masters prograMMe:requireMents and proCedures
requireMents
Studentengineerscurrentlyintheirfirstyear,aswellasstudentswhoholdanundergraduatedegree in the sciences, or equivalent, maysubmittheirapplicationstoenrollinthefirstyearofaMastersprogramme(M1).
M11st year of Master
Direct enrollment in the second year of theMastersprogramme(M2)willbeconsideredfor student-engineers who are completingtheir 3rd year, aswell as for candidateswhoalreadyholdaM1degree,orequivalent.
M22nd year of Master
proCedures
AllcandidatesmustsubmittheirapplicationsaccordingtothedesignatedtimetableandfillouttheapplicationformavailableonthecoleCentralePariswebsite:
http://www.ecp.fr/masters_programme
Applicants will be selected for M1 and M2programmesbytheDirectorofStudies,uponrecommendation by the coordinator of therelevantMastersandapprovalbytheselectionjury,subjecttothenumberofplacesavailable.
MAStERS PROGRAMMEFields & Specializations
SpecializationSFieldS
energY
coordinator: Jean taine
M2 thermal sciences
Coordinator:Marie-Yvonne Perrin
M1 energy
Coordinator: Christophe Laux
M2 energy Materials and
Processes
Coordinator: Marie-Laurence Giorgi
theMatic fieLds & sPeciaLizatiOns
M2 applied Mathematics
(Vision, Learning track - MVa)
Coordinator: Nikos Paragios
M2 Modelling and simulation (Ms)
Coordinator: Gilles Fa
aPPLied MatheMatics & infOrMatiOn sciences
coordinators: Marc aiguier & gilles fa
M1 applied Mathematics & information sciences
Coordinator: Christophe Laux
aPPLied sciences
coordinator: didier clouteau
M1 applied sciences
Coordinator: Christophe Laux
M2 Processes, environment, and biotechnologies
Coordinator: Dominique Pareau
M2 nanosciences
Coordinator: Hichem Dammak
business sciences: industriaL engineering
coordinator: bernard Yannou
M2 industrial and Logistics systems Optimization
Coordinator: Vincent Mousseau
M1 business sciences:
industrial engineering
Coordinator: Marija Jankovic
M2 design engineering and design Management
Coordinator: Bernard Yannou
M2 nuclear reactor
Physics & engineering
Coordinator: Cheikh Diop (CEA/INStN)
nucLear energY
centrale Paris coordinator: enrico zio
M1 nuclear energy
Coordinator:Patrick Le tallec
(cole Polytechnique)
M2 nuclear Plant design
Coordinator: Bertrand Reynier
(ENStA)
8
M2 electrification and
automobile Propulsion
Coordinator: Franck Enguehard
M2 design & Management Of complex computer systems (coMasic)
Coordinator: Marc Aiguier
M2 systemic & synthetic
biology (bss)
Coordinator: Marc Aiguier
M2 high Performance computing (hPc)
Coordinator: Frdric Magouls
M2aerospace engineering
Coordinator: Marc Massot
M2 civil engineering & environment
Coordinator: Arezor Modaressi
M2 dynamics, structures, Materials, and coupled
systems
Coordinator: Didier Clouteau
M2 Organizational Modeling
and Management
Coordinator: Jean-Pierre Bourey
(cole Centrale de Lille)
M2decommissioning & waste Management
Coordinator: Dominique Pareau
(cole Centrale Paris)
M2 Operations
Coordinator: Enrico Zio
(cole Centrale Paris)
M2 fuel cycle
Coordinator: Grard Cote
(Chimie Paristech)
ContaCtshichem dammak [email protected]
Jean-Jacques MaynardAdministrationCoordinator+(33)[email protected]
delphine santignyAcademicAssistant+(33)[email protected]
9
10
Fieldenergytoday, and for the foreseeable future, 80% of the energy consumed in france comes from combustion (over 85% in developed countries, and almost 100% in developing countries). Production of renewable energies and electrification is bound to increase sharply. the latter, based on nuclear power in france, represents only 17% of current energy con-sumption.
a research-oriented, generalist curriculum
Thecurriculumisbuiltaroundfundamentalsciencecourses,coursesappliedtoenergytechnologies,practicalandmethodologicalcourses,a laboratory-basedprojectconducted in teamsof two,aninternshipataresearchlaboratoryorcenter,andscientificandtechnicalEnglishclasses(Frenchlanguageclassesforforeignstudents).
The two research specializationThermal Sciences and Energy Materials and Processesaregeneralistandthematicandhaveapplicationsthroughoutthesectorwithinaverywiderangeofcompanies,institutes,andeducationalinstitutions: renewableenergies newenergytechnologies productionfromfossilenergy,withtheoptionofCO2capture nuclear rationalenergyuseintheresidential/tertiary,transport,andindustrialsectors propulsion
Theycoverdifferent,albeitcomplementary,scientificdomains:the thermal sciences specializationprovideshigh-level training inadvancedheat transfer (gasradiationmodels, turbulent transfers, porousmedia transfers, diphasic flows, etc.), in reactivemedia(combustion,possiblyplasmas),andinrelatedtechniques(turbomachines,etc.).the energy Materials and Processes specializationprovideshigh-level interdisciplinary trainingin materials (especially from a mechanics and physics approach), in process engineering, inenergymaterialsdevelopmentprocesses,andinprocessengineeringforenergyproductioninitsmanyapplicationsinthevastenergysector:classicandrenewableenergyproductionprocesses,materialsdevelopmentforhighlyinnovativeenergyapplications.
objeCtives
pedagogy
In this context, the Energy field is designed to bring all the resources of cole Centrale ParisMastersprogrammestobearonadomainthathasbecomeaglobalpriority:energyinallitsforms(hydrocarbons,gas,coal,renewableenergies(ENR),residential/tertiarynuclearenergy,transport,industrial applications, newenergy technologies), opening onto the entire rangeof careers in adoublecontext.Equallyorientedtoresearch,CentraleParishighlightsitsrigoroustrainingintheEnergyfieldasinallotherfieldswithtworesearchspecializations.ThesespecializationsaredesignedtoofferadoublecurriculumtotopstudentsbothforeignandFrench,fromuniversitiesaswellascoleCentraleParisandcampusesoftheCentraleGroup.Oneof itsobjectivesistoensurethatmoststudent-researchersinM1obtainfundingtocompleteaPhDunderoptimalconditions.
ThevariousspecializationsdrawontheresourcesofcoleCentraleParislaboratories: the thermal sciences specializationdrawsespeciallyontheresourcesoftheMolecular
andMacroscopicEnergeticsandCombustionLaboratory(EM2C).http://www.em2c.ecp.fr the energy Materials and Processes specializationreliesespeciallyontheChemical
EngineeringLaboratory(LGPM),Mechanics,StructuresandMaterialsLaboratory(MSSMat)andPhysicalPropertiesofMaterialsandModelling(SPMS)Laboratory.http://www.lgpm.ecp.frhttp://www.mssmat.ecp.frhttp://www.spms.ecp.fr
partner laboratories
Career opportunities
ENERGYContaCtfield coordinator:Jean taine,[email protected]
ENER
GY
11
Fieldstrengths Mostofthecourses(UE)areofferedjointlywith:
eithertheengineeringprogrammeatCentraleParis,withspecificobjectives, orwithotherinstitutionsofthePRESUniverSud,aspartofarobustpartnershipnet-
work:Suplec,ENSCachan,UniversityofParis-SudXI,etc. ResearchorgansCNRS,CEA,IFP,CSTB,etc.areheavilyinvolvedinteachingactivities. Companypartnershipsplayavitalrole(courses,conferences,companyvisits,travel,
internships,etc.)
all energy-related industries: Production(nuclear,gas,oil,renewableenergies(ENR),andevenexportcoal) Transportanddistributionofenergy(electricity,gas,oil). Residential/tertiarysector(housing,43%ofend-useenergyconsumptioninFrance) Transport(automobileandtrucking,air,space,railroad,river,maritimetransport) Highconsumptionsectors(cement,paper,glass,metallurgy,etc.) Companiesdevelopingspecialenergymaterials
MosttheleadingcompaniesintheseindustriescanbecountedamongcoleCentraleParispartners.Typesofjobs(researchprogrammes):First,doctoralstudies(allinstitutions).BeyondthePhD,ordirectlyaftertheMastersdegree,jobopportunitiesaboundinawiderangeofresearchcareers: researcherataresearchorganorinstitute,especially:CNRS,CEA,IRSN,IFP,CSTB,
ONERA,etc. teacher-researcherataGrande coleoruniversity researchengineeratacompany,usuallyamultinational,inthenuclear,oil,metallurgy,
glass,automobile,oraerospaceindustries researchengineerorR&Dresearcherintheareaofnewenergytechnologies
m1
12 12
the M1 year is designed to provide basic training to students of diverse backgrounds, while enabling them to go on to pursue a wide range of second year options, as well as leaving open the possibility of changing orientation during the year.
pedagogy
12
energy
coleCentraleParishasestablishedafirstyearMasterswithcoursesthatarecommontoboththeEnergyandAppliedSciencesfields.Builtaroundtwosemestersof30credits(ECTS)each,theM1yeariscomprisedof: basic courses, which include:
Majorcourses,representingthefieldsmaindiscipline(orachoicefromamongthemaindisciplines)
Minorcourses,generallycoherentwithoneoftheMajors,providingstudentswithcomplementaryscientifictraining,whichmightinclude:
electivecourses,chosenfromamongabroadrangeofoptionsincludingexperimentalwork,coursesthatenablemorein-depthstudy,appliedcourses,andMinorcomplementarycourses
appliedcourses,chosenfromamongoptionsdesignedtopromotemultidisciplinaryapproaches,ortocomplementstudenttraining,dependingonthebackgroundoftheindividualstudent
customized activities, including:
alanguagecourse,generallyEnglish,whichisessentialforanyresearchcareer.StudentswillobtaincreditsbasedonthesystemcurrentlyinplaceatcoleCentraleParis.Fornon-francophonestudents,aFrenchcourseisofferedthatprovidestheminimumlevelinFrenchnecessarytofollowcourses.
methodologicaltraining,suchasaprojectorpracticalwork,withinanauthorizedhostlaboratory,spreadoverbothsemesters.
Finally, students are also introduced to research careers through their participation in forums,conferencesandseminars,aswellaslaboratoryvisits.Theseactivities(forwhichstudentsreceivecredit,thoughnotECTS)providestudentswithanintroductiontoresearchatmajorinstitutionsandcorporations.Creditsobtainedthroughthevariouscoursesandactivitiesarespecificallydefinedforeachcourseineachofthefields.
ContaCtresponsable de la mention :Marc aiguier,[email protected]
ContaCtresponsable de la spcialit :Marc aiguier,[email protected]
ContaCtresponsable du M1 :Marc aiguier,[email protected]
ENER
GY
13 13
Courses
13
ContaCtM1 coordinator:christophe Laux,[email protected]
Major: 6 required courses (30 ects) PR3100.DesignofIndustrialProcessesforEnergy,S7,elective2(5ECTS) EN1200.FluidMechanics,S7,elective3(5ECTS) PR4200.ElectricEnergyNetworks,S7,elective6(5ECTS)orMA2400.Conception-Simulation,S7,elective6(5ECTS)
PR1100.StructureandPropertiesofMaterialsl,S8,elective8(5ECTS) EN1100.HeatTransfer,S7(1styearcourse)(5ECTS)orEN1120.HeatTransfer,S8,elective12(5ECTS)
EN1300,AppliedThermodynamics,S8(1styearcourse)(2,5ECTS)andEN1920.AerodynamicsandEnergyScienceLaboratory,S8(1styearcourse)(2,5ECTS)
Minor: 3 courses (15 ects) from among: EN1110.AppliedHeatTransfer,S7,elective4(5ECTS). MG1300.StructuralDynamicsandAcoustics,S7,elective4(5ECTS) IS2120.ControlSystems,S7,elective5(5ECTS) WP2100.SustainableDevelopmentandTechnologies,S8,elective8(5ECTS) EN1500.NuclearEngineering,S8,elective9(5ECTS) EN1400.CombustionModelingandSimulation,S8,elective10(5ECTS) PR4300.CogenerationandEnergyProduction,S8,elective10(5ECTS) EN1600.RenewableEnergy,S8,elective11(5ECTS) MG2817.ApplicationsoftheFiniteElementMethod,S8,elective12(5ECTS) MG2818.IntroductiontoPetroleumExplorationandProduction,S8,elective13(5ECTS)
Project (3 ects in semester 7, 8 ects in semester 8) WP5100.InnovationProjectS7orWP7100.DirectedStudies,S7(3ECTS) WP5200.InnovationProjectS8orWP7200.DirectedStudies,S8(8ECTS)
Languages (2 ects in semester 7, 8 ects in semester 8) LC1000.EnglishorLC2000.FrenchasaForeignLanguage,S7(2ECTS) LC1000.EnglishorLC2000.FrenchasaForeignLanguage,S8(2ECTS)
ENERGYContaCtspecialization coordinator:Marie-Yvonne Perrin,[email protected]
m2
14
Courses
fundamentals:
UE1Transfers,4ECTSMassandheattransfers,coupledtransfers,andturbulenttransfers
UE2ThermalRadiationandCombustion,4ECTSDensemediaandgasradiation,combustion
UE3PolyphasicMedia,4ECTSTwo-phaseflow,porousmediatransfers
general or applied electives,2ECTS(4tochoosefrom)
Practical courses:
UE4NumericalMethodsandProject,4ECTS
UE5ThermalMethodology,3ECTS
UE6MeasuringTechniques:IndividualWork,3ECTS
UE7ScientificEnglish(inLanguageDepartment),2ECTS
a laboratory project (2ECTSinS3,6ECTSinS4)WithinoneoftheMastersprogrammessupportinglaboratories.AdetailedproposalmustbeapprovedbytheMastersprogrammescoordinatorsbeforeworkgetsunderway.
an advanced research or r&d internship,20ECTS(fromendofApriltomid-September),atanacademiclaboratory,aresearchorganorinstitute(CNRS,CEA,IFP,IRSN,CSTBetc.),oracompanyresearchcenter;theinternshipmustentailoriginalandsignificantphysicaland/ornumericaland/orexperimentalmodeling;adetailedproposalmustbeapprovedbytheMastersprogrammescoordinatorsbeforeworkgetsunderway.
the thermal sciences specialization provides high-level training in transfers (advanced heat transfer, turbulent transfers, porous media transfers,
diphasic flow transfers, dense media and gas radiation, etc.)
reactive media (combustion, possibly plasmas) and related techniques (turbomachines, etc.):
student-researchers may customize their training from among a wide array of elective courses, covering all aspects of the energy sector.
14
ThERmal SciENcES
ENERGYContaCtspecialization coordinator:Marie-Laurence giorgi,[email protected]
ENER
GY
15
fundamentals Transfers,4ECTSMassandheattransfers,coupledtransfersandturbulenttransfers
MaterialsScience,4ECTSMaterialsforenergyproduction,Materialsphysics
ProcessEngineering,4ECTSChemicalengineeringandreactors,fluidmechanics
general or applied courses, 2 ects GeopoliticsofEnergy Thermodynamics Appliedcoursesinthetransportsector(FuelsoftheFuture,ThermalEngines,ElectricityComponentsandNetworks,FuelCells)
Appliedcoursesinrenewableenergies(ENR)andhousing(EnergyintheBuildings,ConversionandStorageofRenewableElectricityResources,RenewableEnergyProduc-tionProcesses)
Appliedcoursesinthenuclearsector
Practical courses NumericalMethodsandProject(processsimulation,fluidmechanics),5ECTS LaboratoryMethodology(processandmaterialsengineering),5ECTS
ScientificEnglish(inLanguageDepartment),2ECTS Laboratoryproject,8ECTSwithinoneoftheMastersprogrammessupportinglaboratories
AnadvancedresearchorR&Dinternship,20ECTS(fromendofApriltomid-September),withinanacademiclaboratory,aresearchinstitute(CNRS,CEA,IFP,IRSN,CSTBetc.),oracompanyresearchcentre.
the energy Materials and Processes specialization provides high-level training in: Materials engineering (especially from a mechanics and physics approach)
Process engineering, energy materials processing, and process engineering for the production of energy in all its forms, as applied to the vast energy sector:
classic and renewable energy production processes
Material processing for highly innovative energy applicationsstudent-researchers may customize their training from among a wide array of elective courses, covering all aspects of the energy sector.
m2
Courses
ENERGY maTERialS aNd PRocESSES
m2
16
The distinctive feature of this training lies first and foremost in its multidisciplinary approachand thesystemnatureof thescientificdomain involved.Thisspecificity isadirect featureof itsapplications, which are, by definition, rich and complex systems in which multiple physicalphenomenaarecoupled.Thisspecializationisthusdesignedtomeettheneedforinterdisciplinarytraining, combining the following competences: electricity (electrical energy, electronics, andinformation processing), mechanics (vehicle dynamics, power transmission), heat transfer andinternalcombustionenginetransfers(combustion,fuel,thermodynamics,chemicalkinetics,post-treatmentofgasemissions),andsystemscontrolandintegration(controlengineering,optimizationtechniques).Suchacombinationofskillsallowsforaholisticapproachtothepartiallyortotallyelectrifiedpowertrainandtotheentirevehicle.Studentschoosingthisspecializationwillparticipateinthedevelopmentofnewconceptsandtheelaborationofnewcleanmeansoftransport.TheywillbecomekeyactorsinacademicresearchlaboratoriesandtheR&Ddepartmentsoftheautomobileindustry.Studentswith a range of different backgrounds learn tomaster the fundamentals in each area(combustion,electrical,mechanics,thermal,control),aswellasthevariousin-depthpresentationsprovidedbyacademicandindustrialspecialists.Theoreticalskillsaresupplementedwithanem-phasisontheintegrationandinterconnectiontechnologiesbetweenembeddedcomponents.Thistrainingpreparesstudentstoconductfurtherresearchthroughindustry-orienteddoctoraltheses(CIFREPhDs).However,someofthestudentsenrolledintheprogrammemightwellpursuefur-therresearchthroughPhDprogrammeswithinlaboratoriesdealingwithmoreacademicsubjects.Finally,theMastersprogrammeisalsodesignedtotrainstudentsforresearchengineeringjobswithincompanyR&Ddepartmentsandspecializedlaboratoriesengagedinthenewchallengeofpowertrainelectrificationintransport.Overall, thisprogrammepreparesstudentsforeitherre-searchorengineeringactivities.Thetrainingisrigorousandthecourseloadrelativelyheavy,soastoenabletheacquisitionofin-depthskills.
objeCtivesThecurrentstateofaffairs,withthemassiveintroductionofelectricalcomponents,hasdramaticallychanged road transport. These components, which until recently comprised only auxiliarycomponents in vehicles, now play an increasingly central role in the power train, aswell as inthemanagementandtransformationofonboardenergy.Thisspecializationthustracksthelatestdevelopmentsinmeansoftransport,offeringatrainingofexcellence,inthele-de-Franceregion,forfutureresearchersandengineersfromuniversitiesandGrandecoles,aswellastoqualifiedforeign students. It is open to students who have a strong desire tomake significant concretecontributionstomeetingthepressingsocioeconomicchallengeofimprovingmeansoftransportsoastopreserveourplanetfromexcessivelocalandglobalpollution.
in the field of road transport, european manufacturers have committed to reducing greenhouse gas emissions. it is now commonly admitted that such an objective will not be met by improvements in the internal combustion engine alone. after a century of maintaining a wait-and-see attitude, almost all manufacturers have finally accepted the introduction of electrification into motorization as a highly effective solution to the issue of minimizing energy consumption and pollution.
pedagogy
16
ElEcTRificaTioN aNd auTomobilE PRoPulSioN
16 16
ENERGYContaCt
franck enguehard,[email protected]
Career opportunitiesStudents are prepared for careers in private research sector (ground transport industry),publicresearch(CNRS, IFP, INRETS,etc.),andhighereducation.Thegoal isalsotoprovidesupplemental interdisciplinary training to engineers interested in gaining a comprehensiveunderstandingoftransportsystems,inalltheirdiversityandcomplexity.Thisspecializationisdesignedtofullymeettheneedsoftheautomobileindustry.Thistrainingpreparesstudentsfortheresponsibilitiesofresearchengineeringjobsaswellasforfurtherresearchatthedoctorallevel.
ENER
GY
17
prograMMeThe Electrification and Automobile Propulsion specialization brings together three distinctprogrammes: SustainableVehiclesandTransportatENSCachan Energy(EN)(rankedAin2009)atcoleCentraleParis Information,Energy,andSystems(IES)(rankedAin2009)atSuplec
semester 1: 3 required courses + 5 elective courses from a choice of 7 (30 ects) introduction to the engine and its Limitations * ArchitectureofHybridization TheInternalCombustionEngine MechanicalComponents ElectricalMachines PowerElectronics EmbeddedEnergyStorage ThermalTransfers gMP systems and sub-system integration * DynamicandLongitudinalVehicleBehavior
semester 2: 1 required course + 2 elective courses + 1 internship (30 ects) advanced control of Vehicle energy flow * VehicleIntegration VehicleEco-design EngineeringDepartmentSimulationSoftware EmbeddedElectricalEnergyNetworks CommunicationNetworks OpenCourse(subjecttoapprovalbythepedagogicalteam) Internship
* These courses are considered essential to a coherent and multidisciplinary training programme and are therefore required. ENS Cachan, Centrale Paris and Suplec students are exempt from certain courses, which they are considered to have covered as part of their undergraduate curriculum. The pedagogical team will determine, in collaboration with each institution, the number and type of courses required in this specialization programme and those which may be taken as part of the specific curriculum at each of the three institutions.
17
field
18
aPPliEd maThEmaTicS & iNfoRmaTioN SciENcEScareers in modeling related to mathematics (numerical modeling), computer vision, intensive calculation (high-Performance computing or hPc), and information sciences (design and control techniques, algorithmic techniques) are rapidly expanding professional domains for our students, both in the corporate and academic worlds. the global shortage of skilled labor and young graduates in this area should become even more acute in the next twenty years, as numerous studies have pointed out (including scidac* programme reports of the us department of energy).
objeCtives
pedagogy
In this particularly favorable professional context, the Applied Mathematics and InformationSciences(MASI)fieldoffersstudentsafullrangeoftrainingprogrammesdevotedtothemodelingofcomplexsystems(physical,biological,technical,andorganizational)andtotheirsimulationinhigh-performancecomputersystems.
Thisfieldoffersfivespecializations: ModelingandSimulation(MS)
Mathematics,Vision,Learning(MVA)
DesignandManagementofComplexComputerSystems(CoMaSIC)
SystemicandSyntheticBiology(BSS)
High-PerformanceComputing(HPC)
strengths
This field is characterized by a very open pedagogical approach, enabled by joint-degreepartnershipswith14institutionsofhighereducation,andanacademicagreementwithyetanother.
*SCIDAC:ScientificDiscoverythroughAdvancedComputing/http://www.scidac.gov/
Thisfieldisbuiltaroundnumerous joint-degree partnerinstitutions:
SudParisTelecom&Managementhasrecentlysignedanagreementtojointheteam.
ENSCachan
UniversityofParisV
UniversityofDauphine
colePolytechnique
UniversityofVersaillesSaint-Quentin
INSTN
ENSTA
ENST
coledesPontsParisTech
CentraleMarseille
TlcomParisTech
TlcomSudParis
UniversityofEvryValdEssonne
AgroParisTech
partner laboratoryMatheMatiCs applied to systeMs (Mas) ea 4037
ContaCtresponsable de la mention :Marc aiguier,[email protected]
applied mathematics
& information sciences
ContaCtsfield coordinators:Marc aiguier,[email protected]
gilles fa,[email protected]
applied Mat
heMat
icS
& in
ForMat
ion ScienceS
field
19
partners
TheMathematicsAppliedtoSystems(MAS)Laboratory,foundedintheearly2000s,bringstogetherallofthemathematicsandcomputingresearchatcoleCentraleParis,supportedbythedepartmentsofMathematicsandInformationTechnologiesandAdvancedSystems.Positioned at the center of numerical technologies, the laboratorys work pertains tomodeling,simulation,complexsystemsanalysisandoptimization(oftheindustrialworld,of living organisms, ofmarkets, and of information and networks). This work revolvesaroundthreeaxes: Scientificengineeringandvisualization
Informationprocessingdataandimages
InformationsystemsengineeringAllofthelaboratorysactivitiesareconductedinclosecollaborationwithFrenchandinter-nationalresearchteams(including,notably,INRIA,CEA,Suplec,ENSCachan,andLIAMAinChina),aswellasthroughstructuralpartnershipswithcompanies(BNP-ParibasandSAP-BusinessObjectsChairs)andmulti-partnercollaborativeprojects (especiallywithinthePleSystem@tic).
http://www.mas.ecp.fr
m1
20
No common core has been established, but theM1 is still organized on a semester basis.M1coursesarebasedonthesecondyearofthestudent-engineercurriculumatcoleCentraleParis,whichwas,itself,recentlyreorganizedonasemesterbasis.
Flexibilityintheprogrammeallowsfortwokindsoftraining:
oneemphasizingappliedmathematics,whichpreparesstudentsfortheMSandMVAspecializationsinM2.
theotheremphasizingcomputerscience,whichpreparesstudentsfortheCoMaSIC,BSSandHPCspecializationsinM2.
TheteachingstaffisdrawnfromthedepartmentsofMathematics,ComputerScience,andAppliedPhysicsatcoleCentraleParis.
TheM1programme is comprisedofMajorandMinorcourses,oneappliedcourse,andEnglishcourses(Frenchforforeignstudents):
TheMajorsallincludecoursesrepresentingthemaindisciplinesinthefield:appliedmathematicsandcomputerscience.
TheMinorsallincludecoursesdesignedtoexpandstudentsscientificknowledge.
TheappliedcourseisorganizedaroundastudyandresearchprojectsuggestedbyresearchersattheM1partner-laboratories.
Thestudyofoneforeignlanguage(EnglishforfrancophonestudentsandFrenchfornon-francophonestudents).
Basedon their selection ofMajors andMinors, students canorient their training towardeitherappliedmathematicsorcomputerscience.
this M1 training provides students with a solid foundation in applied mathematics and computer science/programming (see the detailed description of Majors below). the flexibility in the training provided through M1 Minors as well as the applied course and personal project allow students to specialize and design their own curriculum to meet their individual professional and research goals. three tracks are available in the M1 course offerings: applied Mathematics computer science high Performance computing
each student is supervised by a tutor. tutors help students select courses based on their professional and M2 specialization goals.
pedagogy
20
aPPliEd maThEmaTicS & iNfoRmaTioN SciENcES
ContaCtresponsable de la mention :Marc aiguier,[email protected]
ContaCtresponsable de la spcialit :Marc aiguier,[email protected]
applied mathematics
& information sciences
ContaCtM1 coordinator:christophe Laux,[email protected]
applied Mat
heMat
icS
& in
ForMat
ion ScienceS
21
Coursesfirst semester
Studentsmustcomplete30ECTSforthesemester,including4Majorcourses(required)of5ECTSeach,and1Minorof5ECTS,aswellasanEnglishcourse(Frenchforforeignstudents)of3ECTS.
Majors(required,20ECTS):
AdvancedProgrammemingJ.-Ph.Rey(5ECTS)
RandomModelingE.Herbin(5ECTS)
SignalProcessingN.Paragios(5ECTS)
Design&SimulationP.Laurent(5ECTS)
Minors:(1outof3)(5ECTS):
DigitalCommunication&NetworksP.Lecoy(5ECTS)
FluidMechanicsS.Candel(5ECTS)
LifeSciencesM.Zimmerman(5ECTS)
Onemathematics-computinglaboratoryproject(2ECTS)
English(Frenchfornon-francophonestudents,3ECTS)
21
second semester
Studentsmustcomplete30ECTSforthesemester,including2Majorcourses(required)of5ECTSeach,2Minorsof5ECTS,tobeselectedfromachoiceof3,andaStudyandResearchWorkof8ECTS,aswellasanEnglishclass(Frenchfornon-francophonestudents)of2ECTS: Majors(2requiredMajors,10ECTS):
DigitalModelingofTransportationIssuesF.DeVuyst
FoundationsofComputerScience-M.Aiguier
Minors(2outof3)(10ECTS):
IntroductiontoComputer&ArtificialVisionN.Paragios(5ECTS)
High-PerformanceComputing-F.Magouls(5ECTS)
AdvancedOptimizationinOperationsResearchP.H.Cournde(5ECTS)
StudyandResearchWorkwithinaresearchlaboratory,supervisedbyatutor,M1thesis(8ECTS)
English(Frenchfornon-francophonestudents,2ECTS)
applied mathematics
& information sciences
m2
22
spheres of activity:
PublicR&D(CEA,ONERA,INRIA,IFREMER,CEMAGREF,etc.),andprivateR&D(EDF,IFP,Dassault,Peugeot,Renault,Arospatiale,Total,CGG,Bull,CS,Intel,etc.)
Patents,technologyscouting,consultingandexpertise
CE,governmentministries,engineeringdepartments
Teaching:universities,engineeringschools
CNRS,EngineersandResearchersinearlystageofcareers.
types of positions:
Researchengineer
Productionengineer
Engineeringprojectmanager
partners
UniversityofVersaillesSaint-Quentin
INSTN
ENSTA
ENSCachan
UniversityofParisVII
this specialization provides training in modeling and digital simulation methods and techniques, together with a solid understanding of the physics behind modeling. it is designed to give scientists, researchers, and engineers the following skills: a strong foundation in physics, applied mathematics, and computer science
a thorough understanding of the methods used in modeling and simulation applied to the physical sciences.
the significant number of cea members on the teaching staff has contributed to the development of applied courses of excellence in growth areas such as plasmas, new materials, energy, and environmental issues.
Career opportunities
22
modEliNG aNd SimulaTioN (mS)
ContaCtsspecialization coordinator:gilles fa,[email protected]
applied mathematics
& information sciences
ContaCtspecialization coordinator:nikos Paragios,[email protected]
applied Mat
heMat
icS
& in
ForMat
ion ScienceS
m2
23
partners
UniversityofParisV
ENSCachan
UniversityofParisDauphine
colePolytechnique
ENST
coledesPontsParisTech
coleCentraledeMarseille
the applied Mathematics: Vision, Learning specialization provides a coherent and rigorous introduction to a whole cluster of high-level mathematical (and computer science) concepts, models, and techniques applicable to vision, perception, and learning, through courses focused on highly active research fields: artificial vision
automatic signal and image analysis
emulation of human perceptual and adaptive behavior
this Masters programme is thus designed to respond to the dynamic and exciting developments in mathematics applied to modeling and emulation of human intelligence, a development that is supported by the rapid rise of the cognitive sciences.
aPPliEd maThEmaTicS (ViSioN, lEaRNiNG TRack)
spheres of activity:
This specialization prepares students for careers with strong technology and softwarecomponents, in which data (in the broad sense) is fundamentally value-adding for thecompany: statistical engineering, systems architecture, software architecture in image andvision processing, research engineering, projectmanagement in statistics, and engineeringdepartmentconsulting.
Thetransportfield(embeddedsystems)
Computerscienceindustry(informationsystems)
Theheavyequipmentindustry
Kinds of positions:
Systemsarchitect
Researchengineer
Consultant
Engineeringdepartment
Career opportunities
23 23
applied mathematics
& information sciences
ContaCtspecialization coordinator:Marc aiguier,[email protected]
m2
24
partner institutions UniversityofParis-SudXI colePolytechnique INSTN Suplec TlcomParisTech
the design and Management of complex computer systems specialization (coMasic) provides training in architectural design and technical project management methods, focusing on the development of complex industrial systems. it is designed to provide engineers with the skills necessary for careers in the design and testing of computer systems (software systems, embedded and information material) and in systems engineering methods, as well as a mastery of modeling and simulation techniques.
24
dESiGN & maNaGEmENT of comPlEx comPuTER SYSTEmS (comaSic)
spheres of activity:Thisspecializationpreparesstudentsforfundamentallyindustrialandtechnicalcareersinsystemsarchitecture,researchengineering,andproductionengineering,focusingonissuesrelatedtosetsofsoftware-intensivesystemsinthefollowingindustrialsectors: Transport(embeddedsystems) Computing(informationsystems) Heavyequipment(autonomoussystems)
types of positions: Systemsarchitect Researchengineer Productionengineer
Career opportunities
prograMMesemester 1: core curriculum plus one track among two or three (depending on the number and choice of registered students) core curriculum: Systemsengineeringsciences;Modellingandsimulation;Systems
engineering;Projectmanagement;Systemsengineeringproject. embedded systems track:Foundationsofonboardsystems;Onboardsystemsarchitec-
ture;Onboardsystemssafety;Casestudies. autonomous systems track:Components;Conceptionofautonomoussystems;Percep-
tionandcontrol;Casestudies. information systems track:Datamanagement;Softwareintegration;Human-machine
interface;Casestudies.semester 2: research internship
applied mathematics
& information sciences
ContaCtspecialization coordinator:Marc aiguier,[email protected]
applied Mat
heMat
icS
& in
ForMat
ion ScienceS
m2
25
partners UniversityofEvryValdEssonne AgroParisTech AgreementwithTlcomSud-Paris
the systemic and synthetic biology specialization (bss) provides training in methods for the description of complex biological systems, in forms readily manipulable within computer environments.biological modeling entails, among other things, an interdisciplinary approach combining computer science, mathematics, physics, and chemistry. the programme is thus designed to provide scientists, engineers, and researchers with the following skills: a thorough mastery of mathematical, computer, and biological modeling techniques. the training programme will also provide the necessary knowledge in physics and chemistry for modeling biological systems.
This training prepares students for careersin fundamental and applied research inthe life sciences, and the entire industrialsector growing out of synthetic biology,which comprises medicine, energyproductionandbiomaterials.Graduateswithmultidisciplinaryskillsareparticularlysoughtafterinthecomputerscienceindustry.
Career opportunities
SYSTEmic & SYNThETic bioloGY (bSS)
prograMMesemester 3 comprises an optional upgrademodule, three requiredmodules and three electivemodules for a total of 30ECTS. The three TeachingUnits fromupgrademodule relate to eitherBiology (for non-biologist students), or Informatics andMathematics (for biologist students) andtheydonotgiverighttoEuropeancredits.Theprogrammeisenrichedbyaseminarseriesgivenbyinternationalspeakers.Optional upgrade module: IntroductiontogenomicBiology Introductiontostatisticalmachinelearningforinferenceofbiologicalnetworks IntroductiontoMathematicsappliedtoBiology
three required modules: Foreignlanguage IntegrativeBiology SyntheticBiology
three elective modules among five: Dataintegrationandbioengineering MathematicsappliedtoSystemsBiology FormallanguagesformodellingandsimulationinintegrativeBiology Dynamicmodelsofbiologicalregulatorynetworks Molecularmodellinganddesign
semester 4: A6-monthsresearchtraining(30ECTS)takesplaceinoneofthecutting-edgeaca-demiclaboratoriesorbiotechnologycompanieslocatedonsiteorabroad:21ECTSfrommid-Febru-arytoJuneand9ECTSinJulyandAugust,eitherbycontinuingresearchworkinthetraininglab,orbypreparingatGenopoletheiGEMcompetitiontotakeplaceonthefollowingNovember.
applied mathematics
& information sciences
ContaCtspecialization coordinator:frdric Magouls,[email protected]
m2
26
partners UniversityofVersaillesSaint-Quentin ENSCachan
this specialization is designed to provide scientific managers with a mastery of two major technological (r)evolutions: the increasingly critical use of numerical simulation, both in the industrial (design
of new products, from ventilator blades to automobiles) and the research areas the systematic use of (multicore) parallelism throughout the full range of
processorsOne of the key characteristics of this specialization is that it provides graduates with a multidisciplinary background (applied mathematics and computing), which enables them to interact with experts in different fields. cea daM idf is heavily involved in the project. the ter@tec consortium (www.teratec.com), a european pole in high Performance digital simulation, also plays a considerable part in this specialized training programme.
26
hiGh PERfoRmaNcE comPuTiNG (hPc)
spheres of activity: R&D,public(CEA,ONERA,CNRS,etc.)andprivate(EDF,IFP,Dassault,Peugeot,Renault,
Arospatiale,Total,CGG,Bull,CS,Intel,etc.) Patents,technologyscouting,consulting&expertise CE,governmentministries,engineeringdepartments Teachinginuniversitiesandengineeringschools
types of positions: Informationtechnologyprojectmanager Generalcontractingprojectmanager Sectorcomputingresearcher Computingconsultant Scientificcomputingspecialist Researchengineer
Career opportunities
prograMMeThetrainingobjectiveistodevelopadvancedskillsinthefieldofarchitectureandhighperfor-manceparallelcomputersandsoftware.semester 3 (30 ects) core courses
Advancedcompilation Highperformancemicroprocessorarchitectureandcodeoptimization Softwareengineeringforscientificcomputing Performanceevaluation FGPA,GPU,architectureandprogramming Project Technicalwritingandspeaking(EnglishorFrench)
elective courses ModellingmethodsinBiology,ModellingmethodsinFinance,ModellingmethodsinFluid
Mechanics, Embeddedsystemsarchitecture,Highperformancealgorithmsforsignalprocessing.
semester 4 (30 credits) Internship
field
28
aPPliEd SciENcESin accordance with the multidisciplinary approach of cole centrale Paris, the applied sciences field comprises, together with the energy field, all the engineering sciences that involve physics, chemistry, mechanics, and the life sciences. it offers a range of specializations organized according to spheres of business and research activity rather than along disciplinary lines. it provides a training of excellence oriented to and by the world of research, both academic and industrial, and offers a very broad range of courses taught by renowned professors. in M1, the programme is based heavily on the engineering curriculum at cole centrale Paris, and in M2 it offers many joint training programmes with leading schools and universities in the le-de-france region. in addition, it has contracted many partnerships with laboratories, research centers, and companies for internships and further study at the doctoral level.
TheAppliedSciencesfieldprovidesa trainingofexcellence in theengineeringsciencesbasedonthegoals of industry,whichare connectedback to the relevant scientificdisciplines.Suchadeliberatelymultidisciplinaryapproachpromotesexchangesbetweenthevariousspecializations.Itisdesigned,ontheonehand,toattractbrilliantuniversityandengineeringschoolstudentsfromFranceandabroadtodoctoralstudiesandtobothacademicandindustriallaboratories,and,ontheotherhand,totrainyoungscientistsintheseemergingandstrategicresearchfieldswhichstraddleseveraldisciplines: Nanosciences Biotechnologies Theenvironmentandrisk Transportandspace
objeCtives
pedagogyThespecializedMastersprogrammesaredesignedtoprovidethefollowingskills: Amasteryofoneofthefollowingscientificdomains:
Physics Mechanics CivilEngineering Processes
Abroadunderstandingofthestateoftheresearchinthefield,theprincipalscientificchallenges,andtheactiveresearchareas Abilitytoreviewthestateoftheresearchonacomplexsubjectrelatedtothefieldofspecialization Abilitytoconductascientificstudyonasubjectrelatedtothefieldofspecialization
TheM1andM2curriculaaredesigned forstudents tograduallymove fromknowledgeacquisition toautonomous researchanddevelopa taste for innovation. Inaddition, the training is alsodesigned todevelopstudentcapacitytoexchangescientificinformationinformalways,bothinwritingandorally,andinformalways,inateamworkcontext,inbothFrenchandEnglish.
Career opportunitiesThistrainingpreparesstudentsforscientificandtechnicalcareers inthefieldsofphysics,chemistry,mechanics, civil engineering, andbiotechnologies. It is designed to prepare students for positions atbothacademicand industrial researchcenters, engineeringdepartmentsandengineeringconsultingfirms,and inhighereducation.Uponcompletionof thedegree,studentseitherenterdirectly into theprofessionalworldorpursuestudiesatthedoctorallevelintheengineeringsciences.
Aeronauticsindustry Automobileandrailroadindustries Civilengineering Metallurgy
Luxurygoodsindustry Processengineering Agro-foodindustry Medicalsector
Chemicalindustry Energy Publicservices Nanotechnologies
applied sciencesContaCtfield coordinator:didier clouteau,[email protected]
applied
Scien
ceS
field
29
TheAppliedSciencesfieldissupportedbyfourCentraleParislaboratories: MolecularandMacroscopicEnergeticsandCombustionLaboratory(EM2C):UPR288, Soils,Structure,MaterialsMechanicsLaboratory(MSSMat):UMR8579, Structures,Properties,andModelingofSolidsLaboratory(SPMS):UMR8580, ProcessandMaterialsEngineeringLaboratory(LGPM):EA4038.
Throughitsvariousjointprogrammesandagreements,italsohasstronglinkstothefollowinglaboratories:
partner laboratories
strengthsThestrengthandoriginalityofthistrainingprogramme,especiallyasregardsthecareeropportunitiesitaffords,isbasedonamultidisciplinaryapproachgearedtotheneedsofindustry.Thequalityanddiversityof the teachingstaff,which isdrawn fromallof thepartnerandassociated institutions,as well as ties to many laboratories and research centers, enable the programme to providetrainingthroughexcellenceinresearchtothemostdemandingofstudents.Finally,theprivilegedpedagogical environment at Centrale Paris ensures that students receive ongoing attention andadvise, on curriculumchoices, course follow-up, foreign language training, project execution, aswellasfindinganinternshipandmakingdecisionsrelatedtofurtherstudies.
StructureandCoupledSystemsMechanics(CNAM,EA3196), WavePropagationLaboratory:Mathematicaland
SimulationStudies(ENSTA,UMR2706), MechanicsTeachingandResearchUnit(ENSTA), PhysicalMechanicsLaboratoryB2OA(UMR7052), EngineeringofMechanicalSystemsandMaterials
Laboratory(EA2336), MechanicsandTechnologyLaboratory(UMR
UPMC/ENCS/CNRS8535), SolidMechanicsLaboratory,colePolytechnique
(UMR7649), ControlEngineeringDepartmentandControl
EngineeringHostingTeam(EA1399,Suplec), CORIALaboratory(UMR6614,INSARouenandthe
UniversityofRouen), NavierGeotechnicsResearchUnit(CERMES,
LAMI), PontsetChaussesCentralLaboratory(LCPC), StructureandFunctioningofContinentalHydric
SystemsLab.UPMC(UMR7619), SustainableIndustrialStructureMechanics
Laboratory(EDF-CNRSUMR2832), ProteinandNanotechnologiesinSeparation
SciencesLaboratory(UPS-Chtenay-Malabry), PhysicalChemistry,PharmaceuticalTechnology,
andBiopharmaceuticalsLaboratory(UPS-Chtenay-Malabry), FundamentalElectronicsInstitute(UPS-Orsay), CharlesFabryLaboratory(IOTA),Molecular
GeneticsCenter(UPS-Orsay), OrsayInstituteofMolecularandMaterial
Chemistry(UPS-Orsay), QuantumandMolecularPhotonicsLaboratory
(ENSCachan), LavoisierInstitute(UVSQ-Versailles),
OrsayLaboratoryinPhysicalChemistry(UPS-Orsay),InstitutdAlembert(ENSCachan), AimCottonLaboratory(UPR-Orsay), MolecularPhotophysicsLaboratory(UPSOrsay), SolidMechanicsLaboratory(UPS-Orsay), GasandPlasmaPhysicsLaboratory(UPS-Orsay), PhysicsofCondensedMatterLaboratory(cole
Polytechnique-Palaiseau), IrradiatedSolidsLaboratory(CEA-X-CNRS), PhotonicsandNanostructuresLaboratory(CNRS-
Marcoussis), UMRThals(CNRS-Thals), SurfaceandInterfacePhysicsService(CEA), MolecularChemistryService(CEA), SupramolecularandMacromolecularPhotophysics
andPhotochemistryLaboratory(ENSC), NuclearSpectrometryandMassSpectrometry
Center(UPS-Orsay), CondensedMatterStudyGroup(UVSQVersailles), SystemsandApplicationsofInformationand
EnergyTechnologiesLab.(ENSC), ElectricalandPhysicalEngineeringLaboratory
(UPSOrsay), SignalsandSystemsLaboratory(UMR8506:
CNRS,Suplec,UniversitParisXI), ElectronicSignalsandSystemsTeamEA2523, MaterialandHighPressureEngineering
Laboratory(ParisXIII,UPR1311), FoodIndustrialEngineeringLaboratory(Agro-
ParisTechINRA:UMRGenial).
m1
30 30
pedagogycoleCentraleParishasestablishedafirst yearMasterswithcourses thatarecommon toboth theEnergyandAppliedSciencesfields.Builtaroundtwosemestersof30credits(ECTS)each,theM1yeariscomprisedof: basic courses, which include:
Major courses, representing the fields main discipline (or a choice from among the maindisciplines)
Minor courses, generallycoherentwithoneoftheMajors,providingstudentswithcomplementaryscientifictraining,whichmightinclude: elective courses, chosen from among a broad range of options including experimentalwork,coursesthatenablemorein-depthstudy,appliedcourses,andMinorcomplementarycourses.
applied courses, chosen from among options designed to promote multidisciplinaryapproaches, or to complement student training, depending on the background of theindividualstudent.
customized activities, including: a language course, generally English, which is essential for any research career. Studentswill obtain credits based on the system currently in place at coleCentraleParis. For non-francophonestudents,aFrenchcourse isoffered thatprovides theminimumlevel inFrenchnecessarytofollowcourses.
methodological training, suchasaprojectorpracticalwork,withinanauthorizedhostlaboratory,spreadoverbothsemesters
Finally,studentsarealsointroducedtoresearchcareersthroughtheirparticipationinforums,conferencesandseminars,aswellaslaboratoryvisits.Theseactivities(forwhichstudentsreceivecredit,thoughnotECTS)providestudentswithanintroductiontoresearchatmajorinstitutionsandcorporations.Creditsobtainedthroughthevariouscoursesandactivitiesarespecificallydefinedforeachcourse ineachofthefields.
the M1 year is designed to provide basic training to students of diverse backgrounds, while enabling them to go on to pursue a wide range of second year options, as well as leaving open the possibility of changing orientation during the year.
30
aPPliEd SciENcES
prograMMe OneMajorof30ECTS,comprising6courses(ofwhich4arerequired)of36hoursor5ECTS,each OneMinorof15ECTS,comprising3coursesof36hoursor5ECTS,each.Oneofthecourses
mustinvolveexperimentalwork,andmadeoftwoexperimentalmodulestobeselectedbythestudentfromthelistdescribedbelow Onelanguagecourse(scientificEnglish,FrenchasaForeignLanguage)of48hoursor4ECTS Oneprojecttobecompletedwithinaresearchlaboratory(220hoursor11ECTS).
Thecurriculumisspreadoutovertwosemestersunderthesupervisionofatutorforeachstudent:
semester 1 (30 ects) 5MajorandMinorcoursesof5ECTSeach 25ECTS ScientificEnglish1(orFrenchasaForeignLanguage) 2ECTS Laboratoryproject(progressreportanddefense) 3ECTS
semester 2 (30 ects) 4MajorandMinorcoursesof5ECTSeach 20ECTS ScientificEnglish2(orFrenchasaForeignLanguage) 2ECTS Laboratoryproject(projectreportanddefense) 8ECTS
TheestimatedaverageworkloadfortheM1over32weeks,includingmorethan50%individualwork,is35hours/week.
applied sciences
ContaCtM1 coordinator:christophe Laux,[email protected]
applied
Scien
ceS
31 31
Courses
31
ThethreeMajors(Physics;Mechanics,Aeronautics,andCivilEngineering;Processes)arecomprisedofthefollowingcourses:
Ph Major: Physics, 4 required courses: :
PH2100.Waves(S7,elective2)5ECTS, PH2300.TheStructureofMatter(S7,elective3or6),5ECTS PH2812.IntroductiontoAtomicandMolecularPhysics(S8,elective9),5ECTS, PH2819.Structure,ChemicalPropertiesandMolecularSymmetry(S8,elective11)5ECTS.
+ 1 block of 2 courses from among: MG1100.Mechanics(S7,1stY,45h)+EN1300.AppliedThermodynamics(S8,1stY,15h) MA1400.SimulationandOptimization(S7,1stY,30h)orMA2400.Conception-Simulation(S7,elective6,36h)+MA1200.Probability(S7,1stY,20h,prerequisites:MA1100.RealAnalysisorequivalent)orMA2300.RandomModeling(S7,elective3,36h:prerequisites:MA1200andMA1300orequivalent)
PH1100.QuantumandStatisticalPhysics(S8,1stY,60h)Magc Major: Mechanics, aeronautics, and civil engineering, 4 required courses:
MG1300.StructuralDynamicsandAcoustics(S7,elective4,prerequisites:MG1100orequivalent), MG1400.OptimizationofMechanicalStructures:MechanicalBehaviorofMaterials(S7,elective5,5ECTS,prerequisites:MG1100orequivalent)
EN1200.FluidMechanics(S7,elective3orS2,elective8), EN1100orEN1120.HeatTransfer(S7,1stY,E.IaconaorS8,elective12)
+ 2 courses from among: MG1200.CivilEngineering(S7,elective2) MA1400.SimulationandOptimization(S7,1stY,30h)orMA2400.Conception-Simulation(S7,elective6,36h)
MA2500.SignalProcessing(S7,elective6orS2elective8,36h) PH2300.TheStructureofMatter(S7,elective3or6,36h)
Pr Major: Processes, 4 required courses:
PR3100.DesignofIndustrialProcessesforEnergy,theEnvironmentandBiotechnologies1(S7,elective2orS8,elective8)
EN1300.AppliedThermodynamics(S8,1stA)+WP1100.Challengesofthe21stCentury:Introduction(S7,1stY,Conferences+Bibliographicstudy)
EN1200.FluidMechanics(S7,elective3orS8,elective8) PR5110.LifeSciencesandBiotechnology(S8,elective8)or PR5200.LifeSciences:Biophysics,CellularandMolecularBiology(S7,elective5,prerequisites:PR5100orequivalent)orPR5300.PhysiologyandBiotechnology(S7,elective6),prerequisitesPR5100orequiva-lent)
+ 2 courses from among: EN1100.HeatTransfer(S7,1stA)orEN1120(S8,elective12) PR1100.StructureandPropertiesofMaterials(S8,elective8)orPR1300.IntroductiontoMaterials(S8,elective12)
EN1500.NuclearEngineering(S8elective9) PR4300.CogenerationandEnergyProduction(S8,elective10) EN1600.RenewableEnergy(S8,elective11) PR2100.WaterTreatmentandUndergroundWaterProtection(S8,elective12) SE2200.DesignandInnovationofProductsandServices(S7,elective4) WP2100.SustainableDevelopmentandTechnologies(S8,elective8)
m2
32
Future career opportunities include doctoral work in the field of biotechnologies, sewage andwaste treatment, and any other branchof industry (fine chemistry, pharmaceuticals, agro-food,nuclearfuelcycle,etc.),aswellasprocessmanagementandsimulation.ThisdoctoralworkmaybeconductedincollaborationwithaFrenchorinternationalcompany.Thistrainingpreparesstudentsforpositionssuchas: Environment-processengineer Companyengineer R&Dengineer Researcher
Pedagogical objectives: this specialization provides an excellent scientific foundation in process engineering, transfer sciences, and physicochemistry. beyond technical skills, the training provides students with an overview of the many downstream industries in process engineering, such as biotechnologies, environmental sciences, pharmaceuticals, and agro-food, and of the most innovative advances in these sectors with regards to the adoption of the principles of sustainable development. upon completion of the training programme, students will have acquired the following skills: an ability to understand microscopic phenomena involved in the complex systems at work in
the various operations of process engineering (transfers, interface mechanisms, flows, etc.) an ability to conceive and dimension process engineering devices an ability to conceive and optimize environmentally sustainable processes in numerous
domains an ability to grasp the multidisciplinary aspects of processes an ability to analyze, simulate and model processes for their optimization
Career opportunities
32
PRocESSES, ENViRoNmENT, aNd bioTEchNoloGiES
the research environment of the specialization is principally constituted by the following laboratories: ProcessandMaterialsEngineering(LGPM),CentraleParis,EA4038 Soil,Structure,andMaterialsMechanics(MSSMat)UMRCentraleParis/CNRS8579 Structures,Properties,andModelingofSolids(SPMS),CentraleParis,UMR8580 TheSuplecControlEngineeringDepartment
the programmes close relationships with worlds of both academic and industrial research enablesstudentstohaveinternshipplacementsatleadingorganizationsandlaboratoriesLIMHP(ParisXIII),UMRGenial(AgroParisTechINRA)thevariouscampusesofcoleCentrale,CNAM,BRGM,CEA,aswellasindustrialresearchcenters:ARDandtheagro-foodindustry,IFP,SuezEnvironnement,VeoliaEnvironnement,AirLiquide,Rhodia,Arkema,Total,LOral,LVMH,Sanofi-Aventis,etc.
assoCiated laboratories
partners UniversityofParisXIII UniversityofParis-EstMarne-la-Valle
applied sciences
ContaCtspecialization coordinator:dominique Pareau,[email protected]
applied
Scien
ceS
33
prograMMe
33
common core: 15 ects 114 hours SupplementalThermodynamics UnifiedTransfers MeasurementandAnalysisMethods;PhysicochemistryofSolutions ProcessEngineering ChemicalReactors SupplementalBiology ProcessSimulationandControl
choice of curricula: 15 ects - 120henvironment curriculum TheoreticalFundamentalsofWaterTreatment;DrinkingWaterandWastewater WasteTreatment;WasteCollecting;Re-Use;Recycling;EnergyProductionfromWaste SewageGasTreatment;GreenhouseGas;ReductionStorageValorization PollutionandDepollutionofSoilsandGroundwater ManagementoftheEnvironment;ResourcePreservation/Conservation
Processes curriculum DynamicSimulation AdvancedControl ChemicalReactors2 Formulation;Emulsions;Pastes;Creams Agro-FoodProcesses
biotechnologies curriculum FermentationEngineering ModelingandControlofBioreactors Bioproduction WhiteBiotechnologies SortingProcesses-Purification
Practical courses: Practicalworkisdesignedinrelationtothecurriculumandintegratedaspartofthecourse: Environment Processes Biotechnologies Laboratoryproject ScientificEnglish ResearchorR&DInternshipAtanengineeringschool,university,institute,orcompanylaboratoryfromendofApriltoSeptember.
m2
34
Theskillsacquiredthroughthisspecializationprogrammeleadtocareerscloselyconnectedtothenanosciencesandemergingtechnologies: Researcherandteacher-researcher R&Dengineerinthefieldofoptics,nanoelectronics,chemistry,materials,biosciences,
biotechnologies,health,etc.Uponcompletionofthetrainingprogramme,studentsmayalsochoosetopursuedoctoralstudiesatanacademicor industrialresearch laboratory (for instance,within the frameworkofaCIFREcontract).
pedagogythis specialization offers a choice of 4 curricula of 60 ects, each.Thecurriculashareacommoncoreoftwocourses,whichprovideanunderstandingandabovealltheopportunity for thepracticingofnanostructuredesignandcharacterizationmethods,withaparticularemphasisonthenecessarymicroscopytechniquesinvolvedinthisfield. nanophysics curriculum (courses given in french)
Theobjectiveistoprovidestudentswithanunderstandingofthefundamentalphysicsrelatedtothestudyofthephenomenaandconceptsresultingfromtheextremediminutioninsizeofstructures.Itcomprisestwomaincomponents:thefirstinfundamentalphysicsandthesecondinnanosciencemethodologies. nanodevices and nanotechnologies curriculum (courses given in french)
In this curriculum, the combination of physics, chemistry, materials, and biology enables amultidisciplinary approach and provides the opportunity to approach nanoscience through itsapplications,drawingonasolidfoundationoffundamentalknowledge. nanochemistry curriculum (courses given in french)
This curriculum tackles issues related to the synthesis, characterization, and use of functionalmoleculesandnanostructures. international track in nanosciences (courses given in english)
This track includes twomandatorycommon-coremodules,10optionalmodels (at thestudentsdiscretion)andatrainingperiodof18weeks. 2 trimesters of courses,atcoleCentraleParis,UniversityofParis-SudXI,andInstitut
dOptique. 1 trimester of full-time internship.
the nanosciences specialization, offered jointly with 7 leading institutions, provides the bases for technical careers in the area of nanosciences. this area is currently enjoying enormous growth, and affords considerable career opportunities. this training is for students who have completed the equivalent of 60 ects in physics, material sciences, engineering sciences, and chemistry, in france or abroad. it is designed to enable students with backgrounds in physics, chemistry, and electronics to acquire the specific scientific skills necessary to study the extraordinary properties of nanostructures and nano-objects, both from a fundamental perspective and through various applications such as physical sciences, engineering sciences, chemistry, biology, medicine, etc.
Career opportunities
34
NaNoSciENcES
The University of Paris-Sud XI, Suplec, ENS Cachan, cole Polytechnique, Institut dOptique,and theUniversityofVersaillesSaint-Quentinaswellas25 institutesandresearch laboratoriesestablishedatthese7institutions.OtherCEAandThaleslaboratoriesalsoparticipateinthistrainingprogramme. The teacher staff for the Nanosciences specialization is comprised of renownedresearcherstrainedattheselaboratories,institutions,andresearchinstitutes(CNRS,CEA).
partners
applied sciences
ContaCtspecialization coordinator:hichem dammak,[email protected]
applied
Scien
ceS
35
prograMMe
This international track includes twomandatory common-coremodules, 10op-tionalmodels(atthestudentsdiscretion)andatrainingperiodof18weeks.
35
common core (6 ects)
Microscopy,Near-fieldMicroscopyandSpectroscopy
Fabricationandcharacterisationofnanodevicesandnanoobjects
Optional modules (30 ects)
PhysicalChemistryofNanostructuredMaterials
Nanothermics
NonlinearOpticsandNonlinearMicroscopies
Nanotubes:production,characterisation,propertiesandapplications
Biosensors
IonChannelrecordingbiochiptechnology
Nanoscalingofphysicalproperties
Guidedandcoupledwaves
Chargescreeningandtransportinnanostructures
Frommolecularopticstonanobiophotonics
QuantumOptics
Nanophotonics(andphotoniccrystals)
Nearfieldandsub-wavelengthmicroscopies
NonlinearOpticsofSemiconductor:fundamentalsandapplications
SemiconductorPhysicsandComponents
Nanomagnetismansspintronics
Plasmaformicro-andnanotechnologies
Biophotonics:TheoreticalaspectstotheuseoffluorescenceinBiology
Frenchlanguageforforeigners
m2
36
the dynamics, structures, Materials, and coupled systems (dsMsc) specialization of the applied sciences field is open to M1 students, engineering school graduates or 3rd-year engineering students, and holders of a foreign undergraduate degrees who are interested in completing a recognized training programme in the field of structure dynamics and coupled dynamic systems. it is supported by a high-level research laboratories, both public and private, and by the pedagogical environment of cole centrale Paris and other participating institutions: supmeca, ensta-Paristech, and ensaM-Paristech. this specialized training programme prepares its graduates for a broad range of options, from further study at the doctoral level to direct professional placement at research centers and engineering departments.
36
Themostrelevantspheresofactivityinclude: Aeronautics,automobile,andrailwayindustries
Energyindustries
Systemsdesignengineeringandtechnicalconsulting
Career opportunities
TheDSMSCspecializations objective is to prepare students towork autonomously in the studyof short- andmedium term evolutions inmechanical structures in strong dynamic interactionwith a complex environment, especially fluid. Particular emphasis is placed on the non-linearbehaviorofmaterialsandstructures,theuncertaincharacterofpropertiesandcomponents,andthevariousapparentscalesofdominantphenomena:overall vibration, local rupture,etc.Thesetopicsareexaminedbothfromthestandpointofmechanicalanddigitalmodelingandexperimentalidentification.Thein-depthmodulesprovideanopportunitytopresentactiveresearchtopicsinthisfield.
objeCtives
Thisspecializedprogrammeisdividedintotwosemestersof30ECTSeach.Halftheprogrammeconsistsof10coursesof3ECTSeach,includingarequiredcommoncoreof5coursesdistributedoverthecourseofthefirstsemester,and5complementaryelectivecoursesdistributedoverbothsemestersaccordingtothethreethematiccurricula: StructureMaterials
Couplings
DynamicsandIdentification
Theotherhalfofthedegreeconsistsinlaboratorywork(appliedcourses,researchproject(6ECTS),laboratoryinternship(21ECTS),scientificcommunication(3ECTS).Upto2coursemaybeselectedfromotherspecializationsintheAppliedSciencesfield,especiallyfromtheAerospaceEngineering(MAS)andCivilEngineeringandEnvironment(GCE)specializations.
pedagogy
dYNamicS, STRucTuRES, maTERialS & couPlEd SYSTEmS
This specialization includes courses in commonwith theMAEoption atCentraleParis andoffersjointcourseswiththeMechanicsofMaterialandStructuresspecialization(UPMC,ENSCachan,colePolytechnique,ENSAM,ENSTA,SUPMECA).
ItbringstogetherteachersfromCNAM,ONERA,CNRSandEADS.Itsmanyindustrialpartnersprovide its students with internship placements and later sponsor their doctoral researchwithintheCIFREscholarshipframework:EDF,GroupeSafran,EADS,SNCF,Renault,PSA,etc.
Thespecializationsresearchenvironmentisprincipallyconstitutedbythefollowinglaboratories: Soil,Structure,andMaterialMechanics,CentraleParis(UMR8579) MechanicsofCoupledStructuresandSystems,CNAM(EA3196), MechanicsofSolidsLaboratory,colePolytechnique(UMR7649). WavePropagation:MathematicalStudyandSimulationLaboratory(UMR2706CNRS-INRIA-ENSTA)
MechanicsTeachingandResearchUnit,ENSTA, PhysicalMechanicsLaboratory,B2OAUMRCNRS7052deParisXII
MechanicalSystemandMaterialEngineering(LISMMAEA2336)
MechanicsofSystemsandProcessesLaboratory,ENSAM(UMRCNRS8106)
assoCiated laboratories
applied sciences
ContaCtspecialization coordinator:didier clouteau,[email protected]
partners
applied
Scien
ceS
37
prograMMe
37
couplings curriculum
Fluid-StructureInteraction SeismologyandConstruction Contact-Impact
Vibroacoustics MechanicsofMicro-structures 2coursesfromtheAerospace
Engineeringspecialization
common core
StochasticModeling StructureVibrations WavePropagation
NumericalSolidMechanics MaterialEngineering
dynamics and identification curriculum
Identification-ImageRegistration StructureControl AcousticImaging
HighFrequencyVibrations Non-linearVibrations InverseProblems
Materials curriculum
Identification-ImageRegistration StructureControl AcousticImaging HighFrequencyVibrations
Non-LinearVibrations InverseProblems 2coursesfromtheEnergyProcesses
andMaterialsspecialization
m2
38
TheM2specializationiscomprisedoftwosemestersof30ECTSeach.Halfofthetrainingconsistsof10courses(of3ECTSeach)groupedtogetherintoacommoncoreof4coursesandtwothematiccurricula:SuperstructuresandMaterialsandSoils,RocksandConstructionintheirEnvironment.Theotherhalfismadeupoflaboratorywork(PracticalWorkandResearchProject,9ECTS,andInternship,21ECTS).Two ormore coursesmay be selected fromother specializations in the Applied Sciences field,especially from the Dynamics, Structures, Materials, and Coupled Systems (DSMSC) and theProcesses,Environment,andBiotechnologies(PEBT)programmes.
Career opportunitiesThisspecializationpreparesstudentseitherfordirectprofessionalplacementorfurtherstudyatthedoctorallevel.Theprogrammesclosecontactswithcompanies(Bouygues,EDF,SNCF,GDF-Suez,Vinci,etc.)andresearch institutes (BRGM,CEA, IFP,etc.)openupmanyopportunities forstudentsandgraduates.
spheres of activity:Graduates pursue careers in engineering and research at innovative small and medium sizeenterprises,largecompanies,researchinstitutions,andinhighereducation. Civilengineering Energy Transportinfrastructure Geo-environment Planning Publicservices
types of positions: Researcher Studyandresearchengineer
the civil engineering and environment specialization is designed to provide a solid foundation in control engineering, physics and numerical modeling and to train specialists in the understanding and modeling of complex phenomena related to materials (soils, rocks, concretes etc.) and civil engineering construction that take into account their interaction with their environment. this training is research-oriented and prepares students for careers at academic and industrial research centers, engineering departments and consultancies, especially in r&d, as well as in higher education. graduates are prepared to pursue doctoral studies at an academic or industrial research laboratory (for instance, within the framework of a cifre contract).the training programme is offered jointly with ens cachan and uPMc.through its wide offering of courses the programme covers a range of domains in civil engineering, the environment and related risks (both natural and entropic). the training is characterized by a focus on numerical modeling and an experimental approach. students are integrated into research teams for their projects, giving them the opportunity to review the state of the research and conduct a scientific study on a cutting edge topic in their area of specialization.
pedagogy
38
ciVil ENGiNEERiNG & ENViRoNmENT
applied sciencesContaCtfield coordinator:arezor Modaressi,[email protected]
applied
Scien
ceS
39
prograMMe
39
Thisspecializationincludescoursesofferedincommonwiththe3rd-yearSustainableCivilEngi-neeringandUrbanismoptionatCentraleParis.Byagreement,italsoofferscourseswithotherprogrammesinCivilEngineeringandtheEnvironment: CivilEngineeringSpecialization:PontsParisTech-ParisEst, EnvironmentalGeologySpecialization,PRESUniversud.
associated Laboratories
Language English
Methodological work ResearchProject
internship WithinResearchUnit
common core RheologyandMaterialBehaviorModeling
NumericalMethods
ExperimentalMethods NaturalandEnvironmentRiskManagement
Soil,Structure,andMaterialsMechanicsLaboratory,UMRCentraleParis/CNRS8579
ControlEngineeringandTechnologyLaboratoryUMRUPMC/ENCS/CNRS8535
SolidMechanicsLaboratory,colePolytechnique,UMR7649
NavierGeotechnicsUR(CERMES,LAMI) CentrallaboratoryatPontsetChausses Structure&FunctionofContinentalHydricSystemsLaboratory,UPMCUMR7619
PetrophysicsDepartmentofInstitutFranais du Ptrole,
GeologicalandMiningResearchBureauatDirectiondelaRecherche
theme: Materials UnsaturatedSoilMechanics MacroscopicMaterialBehavior ClayPhysicochemistryandMineralogy RockMechanics CoupledTransfersinPorousMediaandReinforcedConcreteCorrosion
ScienceandEngineeringofHydraulicConcrete
theme: environment ClayPhysicochemistryandMineralogy CoupledTransfersinPorousMediaandReinforcedConcreteCorrosion
SewageandWasteTreatment Depollution,NappeProtection
theme: construction StructuresSubjectedtoTransientPressuresandInteractionIssues
InstabilityofStructuresandMaterialsunderExtremeConditions
ParaseismicEngineering ModelingofUncertaintiesandReliabilityofConstruction
partners
elective courses (students select 6 courses of 3ects from among the following) theme: risk
ModelingofUncertaintiesandReliabilityofConstruction
GeophysicalExploration GeologicalandGeotechnicalExploration
ParaseismicEngineering Depollution,NappeProtection UnsaturatedSoilMechanics
theme: geotechnics FoundationandRetainingStructureModeling
TunnelModeling RocksandUndergroundCavernsMechanics
FiniteElementsinGeotechnics Soil-StructureInteractioninStatics Geology
m2
40
ThisMastersprogrammeisorganizedaroundacommoncoreof4blocksof4ECTSeachcoveringfluiddynamicsand turbulence,propulsionandaerodynamics,numerical simulationandappliedmathematics,andreactivemediaaswellasadedicatedtraininginEnglishof4ECTS,designedinconjunctionwiththeLanguageDepartment.TheMastersincludes12ECTSofmethodologicalcoursesdistributedoverbothM2semestersaswellasaproject,whichconfrontsstudentsdirectlytoresearchquestionsinthefirstsemester.Studentstakeacombinationof4electivecourses,chosenfromamong11,overbothsemestersso as to diversify the curriculum and allow for themultidisciplinary approach necessary to thedevelopment of research in the field of aerospace engineering. Three emphases are possibleControlandSystems,MechanicsofStructures,andIn-DepthMechanicsbutthesedependmoreonthestudentchoicesthanonpresetcurricula.
the aerospace engineering specialization of the applied sciences field prepares its graduates for research-oriented activities. it targets scientific and technical r&d positions in the aeronautics and space industries. this training is thus designed for careers in academic and industrial research centers, engineering departments and consulting, and higher education.
pedagogy
40
aERoSPacE ENGiNEERiNG
This specialization prepares students for either immediate professional placement or furtherdoctoralstudy,inanyofthetechnologicaldomainsoftheaerospaceindustry:fromthedesignandoptimizationofaerospacelauncherstothecontrolofsatellitetrajectories,theaerodynamicdesignofdrones,andthemodelingandsimulationofturbulentcombustioninturbo-reactorcombustionchambers.Jobopportunitiesareenhancedbytheprogrammesclosecontactswithmajorcompaniesintherelatedindustries:SNECMAMoteurs,Grossepropulsion(SAFRANGroup),Dassault,EADSGroup:Astrium,Airbus,Eurocopter,MDBA,andST.Graduates pursue careers in engineering and research at innovative small and medium sizeenterprises,largecompanies,researchinstitutions,andinhighereducation. Aeronauticsindustry Automobile,rail,andmaritimeindustries Energy
Career opportunities
Molecular&MacroscopicEnergeticsandCombustionLaboratory(UPR288),CentraleParis, Soil,Structure,andMaterialMechanicsLaboratory(UMR8579),CentraleParis, ControlEngineeringDepartmentandControlEngineeringHostingTeam(EA1399),Suplec, ONERADEFA/DSNA/DAFE/DAAPDepartments,ChtillonandPalaiseau, AerothermochemistryInterprofessionalResearchComplex,CORIAUMR6614,INSARouen
andtheUniversityofRouen.Thisspecializationincludescoursesofferedincommonwiththe3rd-yearAerospaceEngineeringandEnergyoptionsatCentraleParis,aswellaswiththeDSMSCSpecialization.
partner laboratories
applied sciences
ContaCtspecialization coordinator:Marc Massot,[email protected]
applied
Scien
ceS
41
prograMMe
TheM2isdividedintotwosemestersof30ECTSeach.Thecommoncoreof4requiredcoursesistakeninthefirstsemester:
41
common core FluidDynamicsandTurbulence PropulsionorAerodynamics ReactiveMedia AppliedMathematicsandNumericalSimulation
elective courses
Studentsselect4electivecoursesfromthelistbelow.OtherelectivecoursesmaybeselectedfromotherspecializationsatcoleCentraleParis. DigitalControlLaboratory MaterialsforAeronauticandEnergeticApplications StructureMechanics(3modules:VibrationsandStructures,NumericalMechanicsof
Solids,andonecasestudy) FlightMechanics SatelliteDynamics SystemsControl AdvancedAerodynamics CompressibleandSupersonicFlows Acoustics AlgorithmicandProgramming Aeroacoustic IntroductiontoInstabilitiesandBifurcationsinFluidMechanics DiphasicFlows
Language
English
Methodological activities
MultidisciplinarySynthesisProjectStudentsselecttwomodulesfromamongthefollowingthree: AcquisitionandNumericalSignalProcessing NumericalSignalProcessing OpticalDiagnosesandExperimentalTechniques
internship
Internshipataresearchunit
students also have the option of following a systems curriculum (control and control engi-neering) at the control engineering department at suplec.
TheBusinessSciences: IndustrialEngineeringMasters isdesigned to trainstudents inappliedaswellasacademicresearchissues,incloseconnectionwithcompaniesworkinginthefollowingdomains: Designengineering Decision-makingaidsandindustrialandlogisticsystemsoptimization BusinessProcessModeling EnvironmentalManagement
Thesedomainsarerepresentedby3specializations: DesignEngineering&DesignManagement(MoMaC) IndustrialandLogisticSystemsOptimization(OSIL) OrganizationModelingandManagement(MoMO)
objeCtives
field
42
buSiNESS SciENcES: iNduSTRial ENGiNEERiNGindustrial engineering encompasses the conceptual, methodological, and technological supports used in industrial and services companies for the design, transformation, and implementation of their products, processes, and organization.
The courses taught in the Business Sciences: Industrial Engineering Masters programme arehighlyintegratedwiththecourseofferingatcoleCentraleParis.
ThefirstMastersyeardrawsheavilyon1stand2nd-yearengineeringcoursesatcoleCentraleParis,bringing them a greater degree of specialization and intensiveness through a strong emphasisonindividualandlaboratorywork(atCentraleParislaboratories,aswellasatpartneracademicinstitutions,andindustrialpartners).
TheMoMaCandOSILM2coursesarealmostallpartofthe3rd-yearIndustrialEngineeringoptionofferedatcoleCentraleParis.TheMoMOspecializationcoursesareofferedatcoleCentraleLille.
pedagogy
The Business Sciences: Industrial Engineering Masters prepares students for an academiccareeraswellasforacareerinbusiness.Uponcompletionofthedegree,studentsinterestedinaresearch-orientedcareerordinarilygoontocompleteadoctorate,eitheratcoleCentraleParisIndustrialEngineeringLaboratory,oratanotherresearchlaboratory.UponcompletionofthePhD,thesestudentsarestillinapositiontochoosebetweenanacademicorbusinesscareer,inFranceorabroad.CentraleParisDoctoralSchoolawardsseveraldoctoralfellowshipseachyear,andmanyotherfundingsourcesareavailablefromcompanies(CIFREcontracts,etc.).Studentswhooptnottogoontoadoctoratearewellpositionedtomovedirectlyintoprofessionalengineering positions, according to their chosen specialization. Specialists in the domain ofmodelinginindustrialengineeringareinhighdemand,andgraduatesinterestedinworkinginthebusinessworldenjoyadistinctadvantageonthejobmarket.
Career opportunities
business sciences:
industrial engineering
ContaCtfield coordinator:bernard Yannou,[email protected]
BuSineSS ScienceS:
induStrial en
ginee
ring
43
The Industrial Engineering Laboratory (LGI) at cole Centrale Paris develops decision-making methods for the design and optimization of products, services, and logistics andindustrial systems. The laboratorys research activities relate to methods of organization,management,design,production,anddistributionofproductsandservices,throughouttheirlifecycle.Itprovidescompanieswiththemethodsnecessarytoimprovetheirperformanceandcompetitiveness(quality,cost,deliverytime).The laboratory is comprised of 5 research teams. These teams have research agendasthat partially overlap, which enables exchanges between researchers in complementaryspecializations.Mostresearchersareinvolvedinseveralofthefollowinggroups: Theme1:ProductandServicesDevelopmentSystems
Theme2:ProductandServicesProduction/Distribution
AxisA:ProjectManagement
AxisB:KnowledgeandInformationManagement
AxisC:InnovationManagement
http://www.lgi.ecp.fr
industrial engineering (lgi) ea 2606partner laboratory
m1
44 44
ThefirstyearoftheMastersprogrammeisdesignedtoprovideasolidfoundationintheareaofindustrialengineering,withintheoverall frameworkofM1programmesatcoleCentraleParis.Thegoalofthistrainingisto: preparestudentsfortheM2,introducingthemtothechoiceofspecializationsinthefield.
identifyandassesseachstudentsanalyticalabilitiesinordertodirectthemtothemostsuitableM2researchprogramme,ortowardprofessionalM2programmesatotherinstitutions.
TheM1year in IndustrialEngineering is thesameregardlessofM2specialization.CoursesareofferedatCentraleParisexclusively.TheM1isintendedtoprovideageneralisttraininginindustrialengineering,bothintermsoftoolsandmethodsandintermsofindustrialsupports.
the courses taught in the business sciences: industrial engineering Master program are highly integrated with the course offering at cole centrale Paris. the first Master year draws heavily on 1st and 2nd-year engineering courses at cole centrale Paris, bringing them a greater degree of specialization and intensiveness through a strong emphasis on individual and laboratory work (at centrale laboratories, as well as at partner academic institutions, and industrial partners).
pedagogy
44
buSiNESS SciENcES: iNduSTRial ENGiNEERiNG
business sciences:
industrial engineering
ContaCtM1 coordinator:Marija Jankovic,[email protected]
BuSineSS ScienceS:
induStrial en
ginee
ring
45 45
prograMMe
Thefirstyear(M1)totals60ETS,dividedintoMajorcoursesof35ECTS,Minorcoursesof10ECTS,oneEnglishlanguagecourseof4ECTS,and11projectcredits.
first semester (30 ects)
Major courses (20 ects):
SE2200.DesignandInnovationofProductsandServicesS7SE2400.ProductionandDistributionManagementS7IS1410.DigitalandCollaborativeEngineeringS7
Minor courses: 1 Minor from among (5 ects):
MA2400.Conception-SimulationS7
SE2300.StrategyandMarketingS7
SE1600.Economics2S7MA2200.AdvancedOptimizationS7SE3300.Entrepreneurship:Afirstapproach
research Project (progress report and defense) (3 ects)
Lc1000 english language or Lc2000 french as a foreign Language (2 ects)
second semester (30 ects)
Major courses (15 ects):
SE2750.StochasticModelingandTheoryofQueuesandtheirApplicationsS8SE2700.ModelingforDecisionMakingS8SE2650.RiskAssessmentandManagementS8
Minor courses: 1 Minor from among (5 ects):
MA2600.NumericalOptimizationandApplicationsS8SE2550.PurchasingS8MA2821.Multi-agentModelingofComplexSystemsS8
SE1500.EnterprisemodelingS8SE2800.ProductionPlanningandSchedulingS8EN2910.AircraftDesignS8
research Project (project report and defense) (8 ects)
Lc1000 english language or Lc2000 french as a foreign Language (2 ects)
45
Oneofthedistinctivefeaturesofthisspecializationisthat itdistinguishesbetweentwodifferentperspectivesonthedesignprocess,asrepresentedbytwospecializationcurricula: TheProducts,Services,EngineeringCurriculum(PSI)focusesonindustrialproducts:
Product,Project(fornewproductdevelopment),Process,OrganizationfromanEngineeringandModelingPerspective.Studentslearntomodel,represent,computermanage,simulate,andplantheimplementationofanindustrialsolution,todelineatedesignprocesses,capitalizetheirknow-howandimplementdesignmethodologieswithincompanies. TheOrganization,Projects&KnowledgeCurriculum(OPC)seekstooptimizethedesign
processthroughtheuseofknowledge,skills,andneworganizationalandmanagementtechniques.Theaimistoimprovetheperformanceoforganizations,projects,andinnovativeorganizations,aswellasprocessesandstructuresthroughthemanagementofknowledge.
Thisisapproachedthroughindustrialcontextsinwhichhighlycomplexproducts(automobiles,planes,satellites,factories,televisions,computers)andconsumerproductsofintermediate-complexity(cellphones,domesticappliances,cameras,etc.)aredesignedandproduced,callingfortherationalization,ifnotoptimization,ofproduct,industrialprocess,andprojectparameters.
the Modeling and Management of design (MoMac) specialization prepares 2nd-year Masters students for industrial r&d careers, academic research, and careers consulting in the areas of design engineering and design management. the main objective is to acquire the capacity to conceive and improve the performance of design processes, making them more efficient, within product and services companies.
pedagogy
dESiGN ENGiNEERiNG aNd dESiGN maNaGEmENT
types of jobs: Projectmanageroractorinacomplex
systemsdesignproject Newproductlaunchmanager Projectindustrialization/development
manager Purchasemanager Innovationmanager Engineeringandindustrialization
consultant IndustrialengineeringR&D
spheres of activity: Aeronauticsindustry Automobile,railway,maritimeindustries Luxurygoodsindustry Processesindustry Chemicalindustry Energy Publicservices
Career opportunities
ThisspecializationdrawsprimarilyontheGoodsandServicesDevelopmentSystemsresearchteam(20researchers)oftheIndustrialEngineeringLaboratory(LGI,EA2606)atcoleCentraleParis,aswellasonthreeofitsresearchaxes:ProjectManagement,KnowledgeManagement,andInnovativeOrganizationsManagement.TheMoMaCspecializationmaintainsteachingpartnershipswithSUPMECAandENSCachan.
partners
m2
46 46
business sciences:
industrial engineering
ContaCtspecialization coordinator:bernard Yannou,[email protected]
deSign enginee
ring and
deSign ManageM
ent
47
prograMMeStudentsare trainedandevaluatedon their capacity to analyzeand interveneon innovativedesignissueswithingoodsandservicescompanies,i.e.: Systemengineeringanddeploymentofproductparameters;concurrentengineering;
collaborativedesign;coupledproduct-processmodeling;virtualorCADprojectdrafting;productconfiguration;productplatforms Objectiveandsubjectiveneedassessment Performancemodelsidentification;designspaceandoptimalsolutionspace
representation;productoptimizationandmulti-criteriacomparison/assessment Productassessmentthroughoutthedesignprojectandperformance,cost,andrisk
supervision;modelingandsimulationofmaterialandimmaterialprocesses Companyknowledgemanagement,projectmemories,experiencefeedback Sustainabledevelopmentandeco-design;designforall(theelderly,etc.) Innovationmanagementinnovativeorganizationsmanagement;communitiesofpractice
withinthedesign/industrialization