Areas of research
Artificial Intelligence
We explore advanced artificial intelligence algorithms to solve complex problems in various sectors, such as healthcare, industry and the environment. Our work includes pattern recognition, deep learning and recommender systems.
- Pattern Recognition and Computer Vision
- Deep Learning
- Natural Language Processing (NLP)
- Recommendation Systems and Predictive Analysis
Electromechanical Systems Design
Our laboratory is dedicated to the design and optimization of electromechanical systems. This research is essential for improving the performance, reliability and durability of systems used in various industrial sectors, including automotive, aerospace and robotics. Our research focuses include the development of new design methods, performance optimization, materials and component analysis, and innovation in control and sensor technologies.
- Advanced Design Methods
- System Performance Optimization
- Electromechanical Materials and Components
- Control and Sensor Technologies
Additive Manufacturing
Our laboratory specializes in additive manufacturing, exploring various technologies and applications to push the boundaries of manufacturing production. Key areas of research include :
- Advanced Materials Development
- Optimization of Additive Manufacturing Processes
- Parts Design and Optimization
- Industrial Applications and Rapid Prototyping
Laser Welding
Our laboratory is dedicated to the advancement of laser welding technologies, exploring various processes and applications to improve the efficiency, precision and quality of welds. Key research areas include :
- Development of Laser Welding Processes
- Optimization of Welding Parameters
- Specific Materials and Applications
- Welding Quality and Characterization
Surface Hardening
Our laboratory focuses on advanced surface-hardening technologies, aimed at improving the wear resistance, hardness and longevity of materials. This research is essential to meet the growing needs of industries such as fishing, automotive and cutting tools :
- Surface hardening techniques
- Optimization of process parameters
- Specific Materials and Applications
- Characterization of Hardened Surfaces