Bachelor of Industrial Engineering

Core Courses

The first two years of the program (semesters 1 to 4) are dedicated to acquiring the scientific, technical, and methodological fundamentals common to all Science and Technology fields

In Fundamental Sciences

Mathematics : Algebra, analysis, differential equations, probability, and statistics for modeling industrial systems

Physics : Mechanics, electricity, electromagnetism, and optics applied to technical systems

Chemistry (Structure of Matter & Thermodynamics) : Understanding materials and reactions used in industry, and studying energy transfers in industrial processes

In Engineering Sciences

Basic Electronics & Electrotechnics : Fundamentals of circuits, components, currents, and electrical systems

Combinatorial & Sequential Logic : Foundations of programmable automation systems

Technical Skills and Tools

Computer Science : Algorithms, programming, data processing, and use of industrial software

Technical Drawing : Reading and designing industrial plans

Practical Work (physics, chemistry, electronics, electrotechnics) : Hands-on application of studied concepts

Methodology and Communication

Writing and Presentation Methodology : Structuring scientific reports and presentations

Communication Skills : Oral and written communication for professional settings

Languages (English, French) : For communication in an international industrial context

Professional Awareness and Culture

Introduction to Careers in Science and Technology : Understanding job prospects and industrial sectors

Ethics, Professional Conduct, Business Law, and Economics : Raising awareness of professional responsibilities and the socio-economic environment of industry

Advanced Topics

In the third year, semesters 5 and 6 focus on concrete industrial applications, mastering professional tools, and preparing for integration into the workforce.

Semester 5 – Technical and Organizational Deepening

Production Organization

Scheduling: Techniques for optimal planning of tasks in workshops

Fundamentals and management of supply chains: Management of physical and information flows from supplier to customer

Computer-Integrated Manufacturing (CIM): Integration of IT tools (CAD, CAM, ERP) into the production process

Industrial Sciences and Technologies

Process Engineering: Analysis and control of physical and chemical processes in industry

Automation: Control and regulation of dynamic systems

Digital and IT Tools

Introduction to Information Systems: ERP, industrial data management

Practical Work – Industrial Networks: Machine-to-machine communication (PLCs, SCADA, etc.)

Language and Industrial Culture

Technical English (ESP): Vocabulary and technical communication in an international context

Industrial Networks (supplementary course): Architecture and functioning of conventional and industrial communication networks (OSI model, TCP/IP, AS-i, PROFIBUS, PROFINET, Modbus RTU, Modbus TCP/IP, CAN, CANopen, etc.)

 Semester 6 – Pre-professionalization and Real-world Application

Industrial Automation and Control

Programmable Logic Controllers (PLCs): Modeling (Grafcet), programming (CONT, LOG, LIST, ST languages) using PLC software (SIMATIC Manager STEP7, TIA Portal by Siemens), wiring and study of modern automated production systems

Control and Regulation: Automatic control of industrial systems

Industrial Electronics: Power electronics, converters, speed drives, embedded systems (Arduino, Raspberry Pi, etc.)

Maintenance and Technical Management

Industrial Maintenance Management: Preventive, corrective maintenance, and CMMS

Practical Work – Maintenance and PLCs: Real-system application (e.g., FESTO MPS, S7-300 PLC)

Project and Internship

End-of-Cycle Project (ECP): Supervised practical work on real industrial topics (problem-solving for actual industry issues), hands-on projects (robotics, electronics), simulation-based topics (using professional and educational simulators like FlexSim, Arena, CISCO Packet Tracer, GNS3), or theoretical research initiation (planning, scheduling, supply chains)

Industrial Internship: Immersion in a professional environment, thesis writing and defense

Cross-disciplinary Skills

Advanced Programming and Databases: Software tools for automation and industrial data management

Ergonomics and New Technologies: Design of ergonomic workstations, technology watch

Business Management & Entrepreneurship: Functioning of industrial organizations, project management, innovation