Program objectives
The Mechatronics Engineering degree programme aims to train engineers capable of managing end-to-end industrial projects, from design to implementation, whilst taking into account technical, economic and regulatory constraints.
Mechatronics engineers develop multidisciplinary skills in mechanics, electronics, automation and industrial IT in order to design intelligent, integrated and networked systems that meet the needs of modern industrial sectors such as the automotive, aerospace, energy and Industry 4.0 sectors.
Target skills
A mechatronics engineer must be able to:
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Implementation of real-time IT systems.
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Modelling, controlling and monitoring automated systems.
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Analysing and designing complex mechatronic systems.
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Implementing solutions in robotics and industrial automation.
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Managing technical projects in an industrial setting.
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Integrating sensors, actuators and embedded systems.
Areas of application
Management & Entrepreneurship
Career opportunities
Automation Engineer
Design and optimisation of automated systems to improve industrial production and reduce the need for human intervention.
Robotics Engineer
Development and programming of industrial robots and intelligent systems for production environments.
Embedded Systems Engineer
Design of electronic systems and software integrated into industrial machinery and equipment.
Maintenance Engineer
Carries out preventive and corrective maintenance on industrial equipment to ensure its performance and reliability.
Industrial Project Manager
Management and coordination of industrial projects, from design through to production.
R&D & Innovation Expert
Development of new technologies and innovative solutions to improve mechatronic and industrial systems.
Mechatronics Engineering Programme
Year 1, Semester 1
Year 1, Semester 2
Year 2, Semester 3
Year 2, Semester 4
Year 3, Semester 5
Year 3, Semester 6
- Engineering Mathematics 1
- Algorithms & Programming
- Optional module: Physics of Semiconductor Devices, Measurement and Instrumentation
- Maths Workshop
- Applied Computer Science: Linux-Unix Operating Systems
- Automatic 1: Automatic control of continuous linear systems
- Electrical Engineering 1: Electrical Circuits
- Materials – characterisation of materials
- RDM – Mechanical Engineering
- Project: Characterisation and modelling of mechanical structures
- General mechanics
- Mechanical design and innovation
- Mechanical Design and Innovation Project
- General Economics
- English 1
- French 1
- Engineering Mathematics 2
- Probability and statistics
- Numerical analysis
- Electronics 1
- Automatic 2: Control of sampled systems
- Digital Electronics 1
- Computer Architecture and Microprocessors
- Embedded Linux
- Health and safety at work
- Project: Design and Programming of Embedded Systems
- Mechanical engineering
- Heat transfer
- Project: Product design and manufacturing using CATIA
- Business management
- Employment law and engineering ethics
- English 2
- French 2
- Operations research
- Processes (CNC machining)
- Independent project: Modelling and optimisation
- Mechanical system components
- Elements of Mechatronic Systems 1: LabVIEW Simulation (preparation for certification)
- Project: Optimisation and Simulation of Mechatronic Systems
- Electronics 2
- Digital Electronics 2: Industrial Automation
- Electrical Engineering 2: Electrical Machines
- Electrical Engineering 3: Power Electronics
- Signal Processing
- Signal measurement and conditioning
- MIQ Project: Python
- Entrepreneurship and Innovation
- English 3
- French 3
- Modelling & simulation CAM software
- Applied Mechanics: Robotics
- Project: Modelling and Simulation of Robotic Systems
- Automatic 3: Control in the state space
- Digital Electronics 3: Human-machine interfaces, smart sensors and HMIs
- Actuators & IoT devices
- Components of Mechatronic Systems 2: Modelling Robotics/Cobotics
- Communication and Networking: Communication Protocol – Embedded Systems
- Mechatronics Communication and Innovation Project
- CAD and Innovation Project
- Corporate financial management
- Leadership and Human Resources Management
- Social and Environmental Responsibility Project
- English 4
- French 4
- Supervised Personal Project
- Advanced Computing: Artificial Intelligence – Machine Learning / Deep Learning
- Robotic systems integration: ADAMS modelling
- MIQ Project: Internet of Things (IoT)
- Control of Articulated Mechanical Systems (SMA)
- Design & Innovation
- Project: Integration and Simulation of Intelligent Systems
- Automated production systems
- Real-time computing: SYSML
- Technological Research Project (PRT): Automotive and Aeronautical Engineering
- Production Management, Maintenance and Operational Safety: GPMSF
- Project Management: Industrial MES Management
- Independent project: Production optimisation and industrial management
- Scientific research methodology in GMECA
- English 5
- French 5 – Communication Skills
- Final-year project
- First-year internship
- Second-year internship
Other programs at UAS – ESIET
EUR-ACE®-accredited engineering degree and membership of the Tunisian Order of Engineers.
