Nancy, a student city Become Energy...
Transcript of Nancy, a student city Become Energy...
Technologyplatforms
EnergyThe latest scientific training and development of the technologies of tomorrow.
The energy platform is a constantly-evolving experimental infrastructure dedicated to training and research in the energy sector.
The platform comprises electric energy production systems composed of wind-turbines, solar panels, hydrogen fuel cells associated with sto-rage devices (batteries, supercapacitors) and appropriate converters. This complex hybrid network enables the development of electric energy control strategies using a Smart Grid.
Vehicle of the futureAimed at developing different structures for hybrid cars.
The electric vehicle of the future platform allows to test different electri-cal distribution structures, choose the electric actuators, implant diverse interface electronic algorithms and energy control.
It enables the development of different hybrid car structures (sole elec-tric propulsion or thermic and electric blend propulsion).Storage devices (lithium batteries and supercapacitors) can be inserted into the power structure to improve system performance and enable the global energy optimisation of the operating cycle.
Mobile systemsTraining in industrial skills in the field of autonomous or controlled complex systems digital sciences.
The mobile systems platform trains engineering students in robotics and control theory, operations research, real-time computing, identification, communication network, modeling and 3D simulation.
It allows to implement solutions that integrate robots in their environ-ment discovery capabilities, decision making algorithms and optimiza-tions, trajectory control, communication.
Nancy, a student city
Home to 55 000 students, studying in Nancy is ideal ! Everything you
need to live, work and feel at home.
Part of Greater Nancy, our schools and universities have been histo-
rically built throughout the city promoting a rich and vibrant student
life.
This combination of academic institutions provides a multitude of
services to make student life easier:
France borders 6 countries: Belgium, Luxemburg, Germany, Swit-
zerland, Italy and Spain, not forgetting Monaco and Andorra.
France boasts several airports, the largest highways in the world
and its train network with the TGV: high speed train which serves the
major cities in France and across Europe.
Accommodation
one campus residence for the students
Universityrestaurants
5 min fromthe school
Transport
a tramway stopin front of the school
Sporting activities
over 50 activities proposedby the university
Student life, a crucial part ofstudying at ENSEM
The Student’s Union is there to ensure your well-being and inte-gration. Together with the different school clubs, they organize and supervise different student events.
A wide variety of clubs and associations are represented at ENSEM allowing everyone to find what they need to enjoy community life: the student café: ‘Le Cercle’, the sports club, the arts club, the Shell Eco-marathon club, ENSEM student council, the Ramdam, the avia-tor club, the photo club, the comic-book club and more.
From Nancy
Become an Energy EngineerMechanics Electrical engineeringInformation science
Créa
tion
: EN
SEM
com
mun
icat
ion,
Jor
dan
May
er. C
rédi
ts p
hoto
s : J
orda
n M
ayer
, fot
olia
, EN
SEM
▶ Paris ▶ Germany▶ Luxemburg▶ Belgium
From Paris
▶ London
▶ Geneva ▶ Madrid▶ Rome
➔ 2h15
➔ 2h00
➔ 2h00
➔ 2h00
➔ 1h30
➔ 1h30
➔ 1h30
➔ 1h40
école Nationale Supérieured’électricité et de Mécanique
2 avenue de la forêt de hayeBP 9016154505 Vandoeuvre-lès-NancyFRANCE
+33 (0)3 83 59 55 43
www.ensem.univ-lorraine.fr
L o r r a i n e
INP
é c o l e N a t i o n a l e S u p é r i e u r ed ’ é l e c t r i c i t é e t d e M é c a n i q u e
w w w . e n s e m . u n i v - l o r r a i n e . f r
ENSEM,school of Energy
Key Figures
450150 7500400060
200
18 000m2
40
Training in line with the needs of industry
Able to face the major challenges of tomorrow, ENSEM engineers develop their skills in strategic areas such as energy production, intelligent manage-ment of electrical networks, innovation in transport, safety and security of complex systems.
Solid general training given to students in basic scientific engineering disci-plines: mechanical, electrical and information science, brings them the skills that allow them to be immediately operational in industrial and innovative projects, and progress rapidly to positions of high responsibility.
An international perspective
Today, spending part of your education abroad is a real asset or even a ne-cessity. ENSEM accompanies its students in their international training pro-jects and encourages them to do an exchange in one of its forty partner universities.
Our international school policy results in the signing of new agreements with foreign universities each year.
Strong partnerships with industryand research
ENSEM has forged partnerships with the leading industrial groups in the field of energy (General Electric, EDF, Safran, EADS, GDF SUEZ, CEA). ENSEM’s connection to a network of 7500 engineers is a major asset for future engi-neers.
Furthermore, ENSEM benefits from the skills of the professors of five inter-nationally renowned laboratories associated with the CNRS: the assurance of permanently updated training related to the issues of progress and inno-vation.
engineering students
graduates each year
graduates to date
active ENSEM engineers
professors
confirmed researchersor doing a PhD
educational platforms andlaboratories
partnerships with universities abroad
Admission Requirements
▶ Classes préparatoires2-year intensive undergraduate program preparing to the competitive entrance exam to Grandes EcolesConcours Commun Polytechnique➔ www.ccp.scei-concours.fr
▶ CPP2-year intensive undergraduate program leading to the entrance to polytechnic engi-neering schools➔ www.la-prepa-des-inp.fr
▶ Admission on considerationof academic records ➔ First year entry2 year-undergraduate scientific studies + 1 year intensive preparation (ATS) + application file + tests + interview or Bachelor of science + application file + tests + interview
➔ Second year entry1-year study at Master level + application file + tests + interview
0 20 40 60 100
cyan 90/magenta 80/noir 18 cyan 70 jaune 100
30
jaune 70 magenta 75/jaune 100 magenta100/jaune100
Energytraining
Digital Systemstraining
The challenges of the energy transition in 2050 have induced many technological breakthroughs in the areas of production, optimal distribution and rational use of energy and renewables (energy efficiency and consumption optimization, massive electrification, control and management of energy systems, cogeneration and energy recovery processes, new and re-newable energy).
ENSEM trains engineers capable of supporting these technological breakthroughs by carrying out development and research projects in the fields of mechanics, electrical engineering and information science.
Mechanics Information science Electrical engineering
The training program
The science curriculum, combining mechanics, electrical engineering and information science, is complemented by general studies (foreign languages, communication, managerial sciences, system engineering).
Professional possibilities are secured by internships and multiple industrial interventions. International experience is encouraged through numerous pos-sibilities of academic exchanges and internships abroad.
This combination enables students to acquire a solid scientific and technical foundation recognized by the industry, an accurate understanding of the is-sues in the field of energy and essen-tial background knowledge to the engi-neering profession.
From the second year, differentiated courses are offered. They are mainly based on the choice of 3 majors:
▶ Energy systems: energy system performance involving fluid mechanics skills, in thermodynamics and heat en-gineering (transport, conversion and storage, heat transfer) and mechanics of materials and structures.
▶ Electric energy: production design devices, conversion, distribution, pro-cessing or storage of electrical energy with the quality objectives of supply and diversification of sources.
▶ Systems, information & Energy: design of intelligent and communica-ting systems for controlling complex energy systems in a controlled man-ner, and optimized and safe operation.
The school participates in three Mas-ters, in conjunction with laboratories, LEMTA (mechanical engineering/ ener-gy), GREEN (Electrical Engineering) and CRAN (automatic control), allowing en-gineering students to obtain a double degree ENSEM / Master to facilitate an international career path.
Rich and exciting careers in the
following fields:
▶ energy efficiency
▶ smart energy networks
▶ energy control systems
▶ renewable and alternative energy
▶ ...
After Graduation?
▶ Rapid entry into employment: less than two months after graduation
▶ 50% of internships lead to a permanent position
▶ A starting salary of €35 000 p.a.
Digital sciences are at the heart of connected objects and intelligent products that combine the processing capabilities of information and communication with their environment. Digital technology is the core of new engineering systems (3D modeling, virtualization, simulation, digital prototyping) for the design and development of intelligent systems.
ENSEM trains engineers in charge of research, design and development in areas such as monitoring and control systems, the safety and security of critical systems, digital modeling and simulation, software and embedded ser-vices or signal processing and image.
The training program
The first two years of study are conducted in the core curriculum. They are devoted to the acquisition of the basic science skills of applied ma-thematics (scientific computing, nu-merical analysis), computer science (algorithms and programming, da-tabases, networks), automatic engi-neering (control systems, operational safety), signal processing and image.
The science curriculum is supple-mented by general studies (foreign languages, communication, mana-gerial sciences, system engineering). Openings in the workplace are gua-ranteed through internships and multiple industrial interventions. In-ternational experience is encouraged through numerous possibilities of academic exchanges and internships abroad.
The third year of study is based upon a specialization year:
▶ an academic course of one se-mester; several courses are offered: certain lead to the award of a double degree with Masters in:• computer science ;• complex systems engineering ;• computational mathematics.
▶ a 6-month internship in-company or in a laboratory.
Rich and exciting careers in the
following fields:
▶ digital simulation▶ embedded systems▶ connected objects▶ smart city▶ safety and security▶ ...
Applied mathematics Signal processing IT Automatic control
over
over
After Graduation?
▶ Rapid entry into employment: less than two months after graduation
▶ 50% of internships lead to a permanent position
▶ A starting salary of €35 000 p.a.
ENSEM,school of Energy
Key Figures
450150 7500400060
200
18 000m2
40
Training in line with the needs of industry
Able to face the major challenges of tomorrow, ENSEM engineers develop their skills in strategic areas such as energy production, intelligent manage-ment of electrical networks, innovation in transport, safety and security of complex systems.
Solid general training given to students in basic scientific engineering disci-plines: mechanical, electrical and information science, brings them the skills that allow them to be immediately operational in industrial and innovative projects, and progress rapidly to positions of high responsibility.
An international perspective
Today, spending part of your education abroad is a real asset or even a ne-cessity. ENSEM accompanies its students in their international training pro-jects and encourages them to do an exchange in one of its forty partner universities.
Our international school policy results in the signing of new agreements with foreign universities each year.
Strong partnerships with industryand research
ENSEM has forged partnerships with the leading industrial groups in the field of energy (General Electric, EDF, Safran, EADS, GDF SUEZ, CEA). ENSEM’s connection to a network of 7500 engineers is a major asset for future engi-neers.
Furthermore, ENSEM benefits from the skills of the professors of five inter-nationally renowned laboratories associated with the CNRS: the assurance of permanently updated training related to the issues of progress and inno-vation.
engineering students
graduates each year
graduates to date
active ENSEM engineers
professors
confirmed researchersor doing a PhD
educational platforms andlaboratories
partnerships with universities abroad
Admission Requirements
▶ Classes préparatoires2-year intensive undergraduate program preparing to the competitive entrance exam to Grandes EcolesConcours Commun Polytechnique➔ www.ccp.scei-concours.fr
▶ CPP2-year intensive undergraduate program leading to the entrance to polytechnic engi-neering schools➔ www.la-prepa-des-inp.fr
▶ Admission on considerationof academic records ➔ First year entry2 year-undergraduate scientific studies + 1 year intensive preparation (ATS) + application file + tests + interview or Bachelor of science + application file + tests + interview
➔ Second year entry1-year study at Master level + application file + tests + interview
0 20 40 60 100
cyan 90/magenta 80/noir 18 cyan 70 jaune 100
30
jaune 70 magenta 75/jaune 100 magenta100/jaune100
Energytraining
Digital Systemstraining
The challenges of the energy transition in 2050 have induced many technological breakthroughs in the areas of production, optimal distribution and rational use of energy and renewables (energy efficiency and consumption optimization, massive electrification, control and management of energy systems, cogeneration and energy recovery processes, new and re-newable energy).
ENSEM trains engineers capable of supporting these technological breakthroughs by carrying out development and research projects in the fields of mechanics, electrical engineering and information science.
Mechanics Information science Electrical engineering
The training program
The science curriculum, combining mechanics, electrical engineering and information science, is complemented by general studies (foreign languages, communication, managerial sciences, system engineering).
Professional possibilities are secured by internships and multiple industrial interventions. International experience is encouraged through numerous pos-sibilities of academic exchanges and internships abroad.
This combination enables students to acquire a solid scientific and technical foundation recognized by the industry, an accurate understanding of the is-sues in the field of energy and essen-tial background knowledge to the engi-neering profession.
From the second year, differentiated courses are offered. They are mainly based on the choice of 3 majors:
▶ Energy systems: energy system performance involving fluid mechanics skills, in thermodynamics and heat en-gineering (transport, conversion and storage, heat transfer) and mechanics of materials and structures.
▶ Electric energy: production design devices, conversion, distribution, pro-cessing or storage of electrical energy with the quality objectives of supply and diversification of sources.
▶ Systems, information & Energy: design of intelligent and communica-ting systems for controlling complex energy systems in a controlled man-ner, and optimized and safe operation.
The school participates in three Mas-ters, in conjunction with laboratories, LEMTA (mechanical engineering/ ener-gy), GREEN (Electrical Engineering) and CRAN (automatic control), allowing en-gineering students to obtain a double degree ENSEM / Master to facilitate an international career path.
Rich and exciting careers in the
following fields:
▶ energy efficiency
▶ smart energy networks
▶ energy control systems
▶ renewable and alternative energy
▶ ...
After Graduation?
▶ Rapid entry into employment: less than two months after graduation
▶ 50% of internships lead to a permanent position
▶ A starting salary of €35 000 p.a.
Digital sciences are at the heart of connected objects and intelligent products that combine the processing capabilities of information and communication with their environment. Digital technology is the core of new engineering systems (3D modeling, virtualization, simulation, digital prototyping) for the design and development of intelligent systems.
ENSEM trains engineers in charge of research, design and development in areas such as monitoring and control systems, the safety and security of critical systems, digital modeling and simulation, software and embedded ser-vices or signal processing and image.
The training program
The first two years of study are conducted in the core curriculum. They are devoted to the acquisition of the basic science skills of applied ma-thematics (scientific computing, nu-merical analysis), computer science (algorithms and programming, da-tabases, networks), automatic engi-neering (control systems, operational safety), signal processing and image.
The science curriculum is supple-mented by general studies (foreign languages, communication, mana-gerial sciences, system engineering). Openings in the workplace are gua-ranteed through internships and multiple industrial interventions. In-ternational experience is encouraged through numerous possibilities of academic exchanges and internships abroad.
The third year of study is based upon a specialization year:
▶ an academic course of one se-mester; several courses are offered: certain lead to the award of a double degree with Masters in:• computer science ;• complex systems engineering ;• computational mathematics.
▶ a 6-month internship in-company or in a laboratory.
Rich and exciting careers in the
following fields:
▶ digital simulation▶ embedded systems▶ connected objects▶ smart city▶ safety and security▶ ...
Applied mathematics Signal processing IT Automatic control
over
over
After Graduation?
▶ Rapid entry into employment: less than two months after graduation
▶ 50% of internships lead to a permanent position
▶ A starting salary of €35 000 p.a.
ENSEM,school of Energy
Key Figures
450150 7500400060
200
18 000m2
40
Training in line with the needs of industry
Able to face the major challenges of tomorrow, ENSEM engineers develop their skills in strategic areas such as energy production, intelligent manage-ment of electrical networks, innovation in transport, safety and security of complex systems.
Solid general training given to students in basic scientific engineering disci-plines: mechanical, electrical and information science, brings them the skills that allow them to be immediately operational in industrial and innovative projects, and progress rapidly to positions of high responsibility.
An international perspective
Today, spending part of your education abroad is a real asset or even a ne-cessity. ENSEM accompanies its students in their international training pro-jects and encourages them to do an exchange in one of its forty partner universities.
Our international school policy results in the signing of new agreements with foreign universities each year.
Strong partnerships with industryand research
ENSEM has forged partnerships with the leading industrial groups in the field of energy (General Electric, EDF, Safran, EADS, GDF SUEZ, CEA). ENSEM’s connection to a network of 7500 engineers is a major asset for future engi-neers.
Furthermore, ENSEM benefits from the skills of the professors of five inter-nationally renowned laboratories associated with the CNRS: the assurance of permanently updated training related to the issues of progress and inno-vation.
engineering students
graduates each year
graduates to date
active ENSEM engineers
professors
confirmed researchersor doing a PhD
educational platforms andlaboratories
partnerships with universities abroad
Admission Requirements
▶ Classes préparatoires2-year intensive undergraduate program preparing to the competitive entrance exam to Grandes EcolesConcours Commun Polytechnique➔ www.ccp.scei-concours.fr
▶ CPP2-year intensive undergraduate program leading to the entrance to polytechnic engi-neering schools➔ www.la-prepa-des-inp.fr
▶ Admission on considerationof academic records ➔ First year entry2 year-undergraduate scientific studies + 1 year intensive preparation (ATS) + application file + tests + interview or Bachelor of science + application file + tests + interview
➔ Second year entry1-year study at Master level + application file + tests + interview
0 20 40 60 100
cyan 90/magenta 80/noir 18 cyan 70 jaune 100
30
jaune 70 magenta 75/jaune 100 magenta100/jaune100
Energytraining
Digital Systemstraining
The challenges of the energy transition in 2050 have induced many technological breakthroughs in the areas of production, optimal distribution and rational use of energy and renewables (energy efficiency and consumption optimization, massive electrification, control and management of energy systems, cogeneration and energy recovery processes, new and re-newable energy).
ENSEM trains engineers capable of supporting these technological breakthroughs by carrying out development and research projects in the fields of mechanics, electrical engineering and information science.
Mechanics Information science Electrical engineering
The training program
The science curriculum, combining mechanics, electrical engineering and information science, is complemented by general studies (foreign languages, communication, managerial sciences, system engineering).
Professional possibilities are secured by internships and multiple industrial interventions. International experience is encouraged through numerous pos-sibilities of academic exchanges and internships abroad.
This combination enables students to acquire a solid scientific and technical foundation recognized by the industry, an accurate understanding of the is-sues in the field of energy and essen-tial background knowledge to the engi-neering profession.
From the second year, differentiated courses are offered. They are mainly based on the choice of 3 majors:
▶ Energy systems: energy system performance involving fluid mechanics skills, in thermodynamics and heat en-gineering (transport, conversion and storage, heat transfer) and mechanics of materials and structures.
▶ Electric energy: production design devices, conversion, distribution, pro-cessing or storage of electrical energy with the quality objectives of supply and diversification of sources.
▶ Systems, information & Energy: design of intelligent and communica-ting systems for controlling complex energy systems in a controlled man-ner, and optimized and safe operation.
The school participates in three Mas-ters, in conjunction with laboratories, LEMTA (mechanical engineering/ ener-gy), GREEN (Electrical Engineering) and CRAN (automatic control), allowing en-gineering students to obtain a double degree ENSEM / Master to facilitate an international career path.
Rich and exciting careers in the
following fields:
▶ energy efficiency
▶ smart energy networks
▶ energy control systems
▶ renewable and alternative energy
▶ ...
After Graduation?
▶ Rapid entry into employment: less than two months after graduation
▶ 50% of internships lead to a permanent position
▶ A starting salary of €35 000 p.a.
Digital sciences are at the heart of connected objects and intelligent products that combine the processing capabilities of information and communication with their environment. Digital technology is the core of new engineering systems (3D modeling, virtualization, simulation, digital prototyping) for the design and development of intelligent systems.
ENSEM trains engineers in charge of research, design and development in areas such as monitoring and control systems, the safety and security of critical systems, digital modeling and simulation, software and embedded ser-vices or signal processing and image.
The training program
The first two years of study are conducted in the core curriculum. They are devoted to the acquisition of the basic science skills of applied ma-thematics (scientific computing, nu-merical analysis), computer science (algorithms and programming, da-tabases, networks), automatic engi-neering (control systems, operational safety), signal processing and image.
The science curriculum is supple-mented by general studies (foreign languages, communication, mana-gerial sciences, system engineering). Openings in the workplace are gua-ranteed through internships and multiple industrial interventions. In-ternational experience is encouraged through numerous possibilities of academic exchanges and internships abroad.
The third year of study is based upon a specialization year:
▶ an academic course of one se-mester; several courses are offered: certain lead to the award of a double degree with Masters in:• computer science ;• complex systems engineering ;• computational mathematics.
▶ a 6-month internship in-company or in a laboratory.
Rich and exciting careers in the
following fields:
▶ digital simulation▶ embedded systems▶ connected objects▶ smart city▶ safety and security▶ ...
Applied mathematics Signal processing IT Automatic control
over
over
After Graduation?
▶ Rapid entry into employment: less than two months after graduation
▶ 50% of internships lead to a permanent position
▶ A starting salary of €35 000 p.a.
Technologyplatforms
EnergyThe latest scientific training and development of the technologies of tomorrow.
The energy platform is a constantly-evolving experimental infrastructure dedicated to training and research in the energy sector.
The platform comprises electric energy production systems composed of wind-turbines, solar panels, hydrogen fuel cells associated with sto-rage devices (batteries, supercapacitors) and appropriate converters. This complex hybrid network enables the development of electric energy control strategies using a Smart Grid.
Vehicle of the futureAimed at developing different structures for hybrid cars.
The electric vehicle of the future platform allows to test different electri-cal distribution structures, choose the electric actuators, implant diverse interface electronic algorithms and energy control.
It enables the development of different hybrid car structures (sole elec-tric propulsion or thermic and electric blend propulsion).Storage devices (lithium batteries and supercapacitors) can be inserted into the power structure to improve system performance and enable the global energy optimisation of the operating cycle.
Mobile systemsTraining in industrial skills in the field of autonomous or controlled complex systems digital sciences.
The mobile systems platform trains engineering students in robotics and control theory, operations research, real-time computing, identification, communication network, modeling and 3D simulation.
It allows to implement solutions that integrate robots in their environ-ment discovery capabilities, decision making algorithms and optimiza-tions, trajectory control, communication.
Nancy, a student city
Home to 55 000 students, studying in Nancy is ideal ! Everything you
need to live, work and feel at home.
Part of Greater Nancy, our schools and universities have been histo-
rically built throughout the city promoting a rich and vibrant student
life.
This combination of academic institutions provides a multitude of
services to make student life easier:
France borders 6 countries: Belgium, Luxemburg, Germany, Swit-
zerland, Italy and Spain, not forgetting Monaco and Andorra.
France boasts several airports, the largest highways in the world
and its train network with the TGV: high speed train which serves the
major cities in France and across Europe.
Accommodation
one campus residence for the students
Universityrestaurants
5 min fromthe school
Transport
a tramway stopin front of the school
Sporting activities
over 50 activities proposedby the university
Student life, a crucial part ofstudying at ENSEM
The Student’s Union is there to ensure your well-being and inte-gration. Together with the different school clubs, they organize and supervise different student events.
A wide variety of clubs and associations are represented at ENSEM allowing everyone to find what they need to enjoy community life: the student café: ‘Le Cercle’, the sports club, the arts club, the Shell Eco-marathon club, ENSEM student council, the Ramdam, the avia-tor club, the photo club, the comic-book club and more.
From Nancy
Become an Energy EngineerMechanics Electrical engineeringInformation science
Créa
tion
: EN
SEM
com
mun
icat
ion,
Jor
dan
May
er. C
rédi
ts p
hoto
s : J
orda
n M
ayer
, fot
olia
, EN
SEM
▶ Paris ▶ Germany▶ Luxemburg▶ Belgium
From Paris
▶ London
▶ Geneva ▶ Madrid▶ Rome
➔ 2h15
➔ 2h00
➔ 2h00
➔ 2h00
➔ 1h30
➔ 1h30
➔ 1h30
➔ 1h40
école Nationale Supérieured’électricité et de Mécanique
2 avenue de la forêt de hayeBP 9016154505 Vandoeuvre-lès-NancyFRANCE
+33 (0)3 83 59 55 43
www.ensem.univ-lorraine.fr
L o r r a i n e
INP
é c o l e N a t i o n a l e S u p é r i e u r ed ’ é l e c t r i c i t é e t d e M é c a n i q u e
w w w . e n s e m . u n i v - l o r r a i n e . f r
Technologyplatforms
EnergyThe latest scientific training and development of the technologies of tomorrow.
The energy platform is a constantly-evolving experimental infrastructure dedicated to training and research in the energy sector.
The platform comprises electric energy production systems composed of wind-turbines, solar panels, hydrogen fuel cells associated with sto-rage devices (batteries, supercapacitors) and appropriate converters. This complex hybrid network enables the development of electric energy control strategies using a Smart Grid.
Vehicle of the futureAimed at developing different structures for hybrid cars.
The electric vehicle of the future platform allows to test different electri-cal distribution structures, choose the electric actuators, implant diverse interface electronic algorithms and energy control.
It enables the development of different hybrid car structures (sole elec-tric propulsion or thermic and electric blend propulsion).Storage devices (lithium batteries and supercapacitors) can be inserted into the power structure to improve system performance and enable the global energy optimisation of the operating cycle.
Mobile systemsTraining in industrial skills in the field of autonomous or controlled complex systems digital sciences.
The mobile systems platform trains engineering students in robotics and control theory, operations research, real-time computing, identification, communication network, modeling and 3D simulation.
It allows to implement solutions that integrate robots in their environ-ment discovery capabilities, decision making algorithms and optimiza-tions, trajectory control, communication.
Nancy, a student city
Home to 55 000 students, studying in Nancy is ideal ! Everything you
need to live, work and feel at home.
Part of Greater Nancy, our schools and universities have been histo-
rically built throughout the city promoting a rich and vibrant student
life.
This combination of academic institutions provides a multitude of
services to make student life easier:
France borders 6 countries: Belgium, Luxemburg, Germany, Swit-
zerland, Italy and Spain, not forgetting Monaco and Andorra.
France boasts several airports, the largest highways in the world
and its train network with the TGV: high speed train which serves the
major cities in France and across Europe.
Accommodation
one campus residence for the students
Universityrestaurants
5 min fromthe school
Transport
a tramway stopin front of the school
Sporting activities
over 50 activities proposedby the university
Student life, a crucial part ofstudying at ENSEM
The Student’s Union is there to ensure your well-being and inte-gration. Together with the different school clubs, they organize and supervise different student events.
A wide variety of clubs and associations are represented at ENSEM allowing everyone to find what they need to enjoy community life: the student café: ‘Le Cercle’, the sports club, the arts club, the Shell Eco-marathon club, ENSEM student council, the Ramdam, the avia-tor club, the photo club, the comic-book club and more.
From Nancy
Become an Energy EngineerMechanics Electrical engineeringInformation science
Créa
tion
: EN
SEM
com
mun
icat
ion,
Jor
dan
May
er. C
rédi
ts p
hoto
s : J
orda
n M
ayer
, fot
olia
, EN
SEM
▶ Paris ▶ Germany▶ Luxemburg▶ Belgium
From Paris
▶ London
▶ Geneva ▶ Madrid▶ Rome
➔ 2h15
➔ 2h00
➔ 2h00
➔ 2h00
➔ 1h30
➔ 1h30
➔ 1h30
➔ 1h40
école Nationale Supérieured’électricité et de Mécanique
2 avenue de la forêt de hayeBP 9016154505 Vandoeuvre-lès-NancyFRANCE
+33 (0)3 83 59 55 43
www.ensem.univ-lorraine.fr
L o r r a i n e
INP
é c o l e N a t i o n a l e S u p é r i e u r ed ’ é l e c t r i c i t é e t d e M é c a n i q u e
w w w . e n s e m . u n i v - l o r r a i n e . f r