Titulaires d'un diplôme de type court en informatique & systèmes
Master block 0
Master block 1
Master block 2
Passerelle pour électroniciens
Titulaire d'un diplôme de type court en électronique ou électro-mécanique
Master block 0
Master block 1
Master block 2
Lesson grid : Bachelor block 1 (2024-2025)
Teaching units of the 1st Quadrimester
Basics of computer science 1 (4 ECTS)
Computer science and new technologies
Programming techniques 1
Chemistry 1 (5 ECTS)
General chemistry 1: theory and applications
General chemistry 1: seminars
Sustainable development and green chemistry
General mathematics (6 ECTS)
Algebra
Analysis
Rational mechanics 1 (3 ECTS)
Mechanics: applications
Mechanics: theory
Physics 1 (3 ECTS)
Physics 1: labs
Physics 1: theory and applications
Materials techniques 1 (2 ECTS)
Materials techniques 1: applications
Materials techniques 1: theory
Techniques in computer graphics 1 (3 ECTS)
CAD
Technical drawing by hand
Use of graphs
Teaching units of the 2nd Quadrimester
Chemistry 2 (5 ECTS)
Chimie générale 2 : laboratoires et exercices
General chemistry 2: theory and applications
Communication and languages (2 ECTS)
Communication and languages: English 1
Electricity 1 (6 ECTS)
Electricity: labs and exercises
Electrostatics and electrokinetics
Applied mathematics 1 (6 ECTS)
Applied analysis 1
Geometry
Mechanics and materials science 1 (3 ECTS)
Introduction to structural analysis
Rational mechanics 2 (5 ECTS)
Kinematics, statics and dynamics: applications
Kinematics, statics and dynamics: theory
Physics 2 (3 ECTS)
Physics 2: labs
Physics 2: theory and applications
Materials techniques 2 (2 ECTS)
Materials techniques 2: applications
Materials techniques 2: theory
Teaching units of the year
Scientific methodology (2 ECTS)
Methodology: Project (in Computer Science or Building)
Scientific methodology: applications
Scientific methodology: theory
Lesson grid : Bachelor block 2 (2024-2025)
Teaching units of the 1st Quadrimester
Electricity 2 (5 ECTS)
Electricity 2: applications
Electricity 2: theory
Electronics (2 ECTS)
Electronics of semi-conductors 1: theory
Electronics of semi-conductors 1: labs
Applied mathematics 2 (4 ECTS)
Applied analysis 2
Fluid mechanics (2 ECTS)
Fluid mechanics: applications
Fluid mechanics: theory
Mechanics and materials sciences 2 (2 ECTS)
Theory of beams
Mechanics and applied thermodynamics 1 (5 ECTS)
Mechanics and applied thermodynamics 1: exercises
Mechanics and applied thermodynamics 1: theory
Physics 3 (2 ECTS)
Physics 3: labs
Physics 3: theory
Specific course units : Computer Science Group
Basics of computer science 2 (3 ECTS)
Architectures of IT systems
Programming techniques 2
Chemistry 3 (1 ECTS)
Organic chemistry
Techniques in computer graphics 2 (3 ECTS)
3D modelling of technical parts
Plans d'installation électrique BT
Teaching units of the 2nd Quadrimester
Biology (2 ECTS)
Biology and environment
Communication and languages (2 ECTS)
Communication and languages: English 2
Entrepreneurial management (3 ECTS)
Corporate general accounting: applications and case studies
Corporate general accounting: general principles
Statistics (2 ECTS)
Statistics
Specific course units : Computer Science Group
Basics of computer science 3 (2 ECTS)
Programming of graphic interfaces
Electricity supplements (4 ECTS)
Electricity supplements: labs
Electricity supplements: theory
Electronics supplements (3 ECTS)
Electronics of semi-conductors 2: labs
Electronics of semi-conductors 2: theory
Modern physics (2 ECTS)
Nuclear physics
Advanced programming techniques 1 (5 ECTS)
Video game programming
Object-oriented programming
Materials techniques 3 (2 ECTS)
Materials techniques 3
Signal processing 1 (4 ECTS)
Operational calculus of Laplace
Sinusoidal signals and phasors
Lesson grid : Bachelor block 3 (2024-2025)
Teaching units of the 1st Quadrimester
Fluid machines (2 ECTS)
Fluid machines
Specific course units : Computer Science Group
Automation 1 (5 ECTS)
Control of industrial systems
Operational calculus and modelling
Communication and languages (2 ECTS)
Communication and languages: English 3
Applied electronics (3 ECTS)
Microcontroller programming
Applied electronics project
The company: context, structure and issues (2 ECTS)
Economics
Structural organisation of businesses
Business strategies
Computer systems and networks 1 (3 ECTS)
Network topology and architecture
Network protocols
Techniques of industrial measurements (2 ECTS)
Industrial sensors: labs
Industrial sensors: theory
Advanced programming techniques 2 (4 ECTS)
Programming techniques project
Programming techniques 3
Information processing (4 ECTS)
Relational databases: labs
Relational databases: theory and exercises
Data structure
Signal processing 2 (3 ECTS)
Frequency analysis of signals
Analogue signals filtering
Teaching units of the 2nd Quadrimester
Specific course units : Computer Science Group
Professional integration activities (10 ECTS)
Work placement (6 weeks)
Automation 2 (2 ECTS)
Linear systems studies: labs
System control: labs
Digital electronics (6 ECTS)
Programmable components
Digital electronics: labs
Digital electronics: theory
Electrical engineering and electronics (5 ECTS)
Electrical engineering: labs
Applied eletronics and electrical engineering: labs
Electrical machines and networks
Fluid machines labs (1 ECTS)
Fluid machines labs
Computer systems and networks 2 (2 ECTS)
Architecture and routing: labs
Architecture and routing: simulator
Introduction to Cisco IOS
Teaching units of the year
Specific course units : Computer Science Group
Projects, design offices and seminars 1 (4 ECTS)
Involvement in the organisation of an event project
Lesson grid : Master block 1 (2024-2025)
Teaching units of the 1st Quadrimester
Advanced databases (4 ECTS)
Server architectures
Relational databases: advanced course
Big Data and NoSQL systems
Cybersecurity 1 (2 ECTS)
Advanced coding
Cryptologie
Embedded computing (4 ECTS)
Communication protocols and interfaces
Embedded systems equipped with operating systems
Language (2 ECTS)
English
Project Management (1 ECTS)
Project Management
Operations research (3 ECTS)
Project planning and linear programming
ROP tutorials (workshops)
Techniques de programmation avancées 3 (4 ECTS)
Techniques de programmation avancées 3
Specific course units : - Automation and Embedded Systems
Mobile networks (2 ECTS)
Technology and development of telephone and mobile networks
Operating systems (4 ECTS)
Operating systems
Embedded systems (4 ECTS)
Embedded systems project
Embedded systems
Teaching units of the 2nd Quadrimester
Industrial automation (3 ECTS)
GRAFCET and programmable logic controllers
Tutorials on PLC (workshops)
Cybersécurité 2 (2 ECTS)
Projet en cybersécurité (CSC)
Sécurité des systèmes
Preparation of professional environment (1 ECTS)
Preparation of professional environment
Programmation scientifique (2 ECTS)
Programmation scientifique
Data protection (2 ECTS)
Data computer management
Personal data protection
Techniques de programmation avancées 4 (3 ECTS)
Données semi-structurées
Techniques de programmation avancées 4
Specific course units : - Automation and Embedded Systems
Parallel architectures (2 ECTS)
Parallelism: labs
Parallelism: theory
Advanced aspects of embedded systems (4 ECTS)
Embedded systems: project and seminar
Operating system for the embedded: labs
Operating system for the embedded: theory
Artificial intelligence (2 ECTS)
Artificial Intelligence
Machine learning
Technology project (2 ECTS)
Control and supervision system
Signal processing 3 (3 ECTS)
Digital systems and signals
Tutorials on simulation tools (workshops)
Teaching units of the year
Projects, design offices and seminars 2 (4 ECTS)
Planning and organisation of an event project
Lesson grid : Master block 2 (2024-2025)
Teaching units of the 1st Quadrimester
Managerial skills (1 ECTS)
Managerial skills
International management and Human resources (3 ECTS)
Contemporary management pillars
Human resources management
International management
Combinatorial optimization (5 ECTS)
Combinatorial optimization: project
Combinatorial optimization: project
Environmental issues (2 ECTS)
Green IT
CO2 issue and carbon footprint
Entrepreneurial and management project (4 ECTS)
Intercultural communication
Entrepreneurial project
Seminar on management simulation (4 ECTS)
Preparation for management simulation
Seminar on management simulation
Systèmes temps réel et programmables (3 ECTS)
Programmable components
Systèmes temps réel
Specific course units : - Automation and Embedded Systems
Instrumentation and control engineering (2 ECTS)
Instrumentation test beds
Control engineering on test beds and assembly line in mini-factory
Production systems optimisation (1 ECTS)
Industrial production methods
Production line optimisation
Scheduling techniques
Automated production systems (5 ECTS)
Automated production systems: project
Industrial automation networks and systems
Teaching units of the 2nd Quadrimester
Teaching units of the year
End of studies project in a company (30 ECTS)
Work placements (min. 13 weeks)
Final dissertation
Lesson grid : Master block 0 (2024-2025)
Teaching units of the 1st Quadrimester
Automation 1 (5 ECTS)
Control of industrial systems
Operational calculus and modelling
Communication and languages (2 ECTS)
Communication and languages: English 3
Fluid machines (2 ECTS)
Fluid machines
Operating systems (4 ECTS)
Operating systems
Techniques of industrial measurements (2 ECTS)
Industrial sensors: labs
Industrial sensors: theory
Signal processing 2 (3 ECTS)
Frequency analysis of signals
Analogue signals filtering
Group of course units specific to bridge programmes
Refresher course: mathematics (3 ECTS)
Mathematics applied to computer science
Refresher course: fluid mechanics (3 ECTS)
Fluid mechanics
Specific course units : Bridge in computer science
Applied electronics (3 ECTS)
Microcontroller programming
Applied electronics project
Teaching units of the 2nd Quadrimester
Parallel architectures (2 ECTS)
Parallelism: labs
Parallelism: theory
Automation 2 (2 ECTS)
Linear systems studies: labs
System control: labs
Artificial intelligence (2 ECTS)
Artificial Intelligence
Machine learning
Fluid machines labs (1 ECTS)
Fluid machines labs
Refresher course: thermodynamics (3 ECTS)
Thermodynamics: theory
Thermodynamics: practical work
Modern physics (2 ECTS)
Nuclear physics
Advanced programming techniques 1 (5 ECTS)
Video game programming
Object-oriented programming
Signal processing 3 (3 ECTS)
Digital systems and signals
Tutorials on simulation tools (workshops)
Group of course units specific to bridge programmes
Electrotechnique et électronique (4 ECTS)
Electrical engineering: labs
Electrical machines and networks
Specific course units : Bridge in computer science
Programmable components (2 ECTS)
Programmable components
Refresher course: electricity (3 ECTS)
Electricity
Teaching units of the year
Projects, design offices and seminars 1 (4 ECTS)
Involvement in the organisation of an event project
Lesson grid : Master block 0 (2024-2025)
Teaching units of the 1st Quadrimester
Automation 1 (5 ECTS)
Control of industrial systems
Operational calculus and modelling
Communication and languages (2 ECTS)
Communication and languages: English 3
Fluid machines (2 ECTS)
Fluid machines
Operating systems (4 ECTS)
Operating systems
Techniques of industrial measurements (2 ECTS)
Industrial sensors: labs
Industrial sensors: theory
Signal processing 2 (3 ECTS)
Frequency analysis of signals
Analogue signals filtering
Group of course units specific to bridge programmes
Refresher course: mathematics (3 ECTS)
Mathematics applied to computer science
Refresher course: fluid mechanics (3 ECTS)
Fluid mechanics
Specific course units : Bridge in electronics
Computer systems and networks 1 (3 ECTS)
Network topology and architecture
Network protocols
Information processing (4 ECTS)
Relational databases: labs
Relational databases: theory and exercises
Data structure
Teaching units of the 2nd Quadrimester
Parallel architectures (2 ECTS)
Parallelism: labs
Parallelism: theory
Automation 2 (2 ECTS)
Linear systems studies: labs
System control: labs
Artificial intelligence (2 ECTS)
Artificial Intelligence
Machine learning
Fluid machines labs (1 ECTS)
Fluid machines labs
Refresher course: thermodynamics (3 ECTS)
Thermodynamics: theory
Thermodynamics: practical work
Modern physics (2 ECTS)
Nuclear physics
Advanced programming techniques 1 (5 ECTS)
Video game programming
Object-oriented programming
Signal processing 3 (3 ECTS)
Digital systems and signals
Tutorials on simulation tools (workshops)
Group of course units specific to bridge programmes
Electrotechnique et électronique (4 ECTS)
Electrical engineering: labs
Electrical machines and networks
Specific course units : Bridge in electronics
Computer systems and networks 2 (2 ECTS)
Architecture and routing: labs
Architecture and routing: simulator
Introduction to Cisco IOS
Teaching units of the year
Projects, design offices and seminars 1 (4 ECTS)
Involvement in the organisation of an event project
Lesson grid : Master block 1 (2024-2025)
Teaching units of the 1st Quadrimester
Advanced databases (4 ECTS)
Server architectures
Relational databases: advanced course
Big Data and NoSQL systems
Cybersecurity 1 (2 ECTS)
Advanced coding
Cryptologie
Embedded computing (4 ECTS)
Communication protocols and interfaces
Embedded systems equipped with operating systems
Language (2 ECTS)
English
Project Management (1 ECTS)
Project Management
Operations research (3 ECTS)
Project planning and linear programming
ROP tutorials (workshops)
Techniques de programmation avancées 3 (4 ECTS)
Techniques de programmation avancées 3
Specific course units : - Automation and Embedded Systems - Bridge
The company: context, structure and issues (2 ECTS)
Economics
Structural organisation of businesses
Business strategies
Refresher course: chemistry (3 ECTS)
Chemistry
Mobile networks (2 ECTS)
Technology and development of telephone and mobile networks
Embedded systems (4 ECTS)
Embedded systems project
Embedded systems
Teaching units of the 2nd Quadrimester
Industrial automation (3 ECTS)
GRAFCET and programmable logic controllers
Tutorials on PLC (workshops)
Cybersécurité 2 (2 ECTS)
Projet en cybersécurité (CSC)
Sécurité des systèmes
Preparation of professional environment (1 ECTS)
Preparation of professional environment
Programmation scientifique (2 ECTS)
Programmation scientifique
Data protection (2 ECTS)
Data computer management
Personal data protection
Techniques de programmation avancées 4 (3 ECTS)
Données semi-structurées
Techniques de programmation avancées 4
Specific course units : - Automation and Embedded Systems - Bridge
Advanced aspects of embedded systems (4 ECTS)
Embedded systems: project and seminar
Operating system for the embedded: labs
Operating system for the embedded: theory
Refresher course: materials science (3 ECTS)
Resistance of materials
Technology project (2 ECTS)
Control and supervision system
Teaching units of the year
Projects, design offices and seminars 2 (4 ECTS)
Planning and organisation of an event project
Les études d'ingénieur informaticien spécialisé en automation et systèmes embarqués
Les ingénieurs informaticiens possèdent un vaste bagage en informatique. Ils se spécialisent dans la conception, la maintenance et le développement des systèmes et des produits. Ils sont généralement responsables de l’élaboration et de la gestion des projets à grande échelle où la sécurité du public, ainsi que la maintenance et l’évolution des systèmes, sont d’une importance primordiale.
La formation générale commune aux deux orientations est articulée autour de quatre axes :
l’informatique spécialisée qui comprend les architectures serveur, la programmation, les bases de données et le Big Data;
l’ingénierie informatique (génie logiciel, conduite de projets informatiques, recherche opérationnelle et planification) ;
le contrôle des systèmes industriels et processus temps réel (automates, machines parallèles, noyaux temps réel, etc.) ;
les réseaux informatiques (matériels, logiciels, gestion, supervision) et la sécurité.
L’option « Automation & Systèmes Embarqués » aborde spécifiquement des matières comme :
l’automatisation intégrée des processus industriels (Contrôle, modélisation, simulation et instrumentation des systèmes, Automates Programmables Industriels, Réseaux Locaux Industriels, SCADA et IHM, Manufacturing Execution System, optimisation des systèmes de production, GPAO, etc.)
l’informatique embarquée (microcontrôleurs, nano-ordinateurs, micrologiciel, etc.) constitue une voie d’avenir, une vraie révolution qui ne fait que commencer. Elle nous entoure et est omniprésente dans notre vie quotidienne. De plus, elle permet de nouvelles innovations dans de nombreux domaines : santé, transport, communication, bâtiment, sécurité, etc.
les réseaux mobiles (GSM, GPRS, 3G, 4G, etc.)
Si vous êtes déjà titulaire d'un diplôme de type court (bachelier) en informatique & systèmes, électronique ou électro-mécanique, nous organisons au sein du Campus technique de la HEH des passerelles vers les formations de Master en sciences de l'ingénieur industriel en Informatique. Ces passerelles donnent accès aux années de Master auxquelles viennent s'ajouter des unités d'enseignements complémentaires.