This course provides a rigorous introduction to the analysis and design of Multi-Input Multi-Output (MIMO) linear dynamic systems using state-space and transfer matrix methodologies. Moving beyond Single-Input Single-Output (SISO) theory, it focuses on the unique challenges of coupled, multivariable interactions, equipping students with the fundamental tools to model, analyze, and control complex engineering systems.
- Enseignant: Karim BELALIA
- Enseignant: M'HAMMED BENALI BENADJEMIA
The objective of the course is to master the complex optimization techniques encountered in the management of large production systems, machines and materials, in industry, commerce and administration. The goal is to provide decision-making support to achieve maximum performance.
Become familiar with operations research models. Learn to formulate and solve optimization problems and master the appropriate techniques and algorithms
- Enseignant: Benyssaad YSSAAD
This course is intended for first-year Master's students in Automation and Systems. it focuses on analog and digital signal processing. We begin this course with a review of Fourier analysis, followed by chapters on analog filters, sampling, Discrete Fourier Transform, and digital filters.
- Enseignant: Ghenam DAHMANE