Explore the programs and courses offered by Automation
Browse Programs Admission InformationProgram Objectives
Automation engineering is a multidisciplinary science focused on analyzing and controlling dynamic systems. It plays a pivotal role in modern industry where automated systems integrate various technologies (pneumatic, electromechanical, electronic, computer science, etc.). This program aims to meet industry needs by training multidisciplinary specialists mastering industrial control systems and computer engineering.
This three-year program (6 semesters) combines fundamental coursework (mathematics, physics, chemistry, computer science) with progressive specialization in automation engineering. Students acquire skills in:
Targeted Competencies
The program prepares students for either graduate studies (Master's, PhD) or direct professional integration as technician-engineers in:
Career Opportunities
Automation skills are sought in various industrial sectors including:
Textile, construction materials, and manufacturing
First Year (Common Core - Science and Technology)
Semester 1:
Mathematics 1
Physics 1
Matter structure
Physics/Chemistry labs
Computer Science 1
Writing methodology
Semester 2:
Mathematics 2
Physics 2
Thermodynamics
Physics/Chemistry labs
Computer Science 2
Presentation methodology
Second Year (Technological Specialization)
Semester 3:
Mathematics 3
Waves and vibrations
Fundamental electronics
Fundamental electrotechnics
Probability and statistics
Computer Science 3
Electronics/Electrotechnics labs
Waves/vibrations labs
Semester 4:
Linear continuous control systems (theory + lab)
Combinational/sequential logic (theory + lab)
Numerical methods (theory + lab)
Signal theory
Electrical/electronic measurements
Third Year (Automation Specialization)
Semester 5:
Linear system control (theory + lab)
Power electronics (theory + lab)
System modeling/identification (theory + lab)
Microprocessors/Microcontrollers (theory + lab)
C++ programming (theory + lab)
Semester 6:
Sampled control systems
Actuators and sensors (theory + lab)
PLCs (theory + lab)
Industrial communication buses/networks (theory + lab)
Capstone project
Industrial AI: Predictive control (MPC), ML-based predictive maintenance
Industry 4.0: Digital twins, industrial cybersecurity
Robotics: Collaborative robots (cobots), industrial vision systems
Smart Energy: Smart grid management, renewable energy automation
Embedded Systems: Real-time programming (RTOS), industrial protocols (OPC UA, PROFINET)
Advanced Automation: SCADA systems, fuzzy logic control
Career Prospects: These competencies are crucial for smart factories, autonomous vehicles, and energy optimization.
For high school graduates (baccalaureate holders) wishing to enroll in Bachelor's or Engineering programs:
Please refer to the annual notice regarding preliminary registrations and guidance for baccalaureate holders issued by the Ministry of Higher Education and Scientific Research.
For students seeking to enroll in Master's programs:
Selection is conducted by pedagogical committees based on:
· Available program capacity
· Relevance of the applicant's Bachelor's degree to the chosen specialization
(Consult training offers on the university website).
Apply Now