This training course provides participants with the concepts, methods, and tools of organizational management needed to foster a culture of collective quality. It equips participants with the ability to understand and contextualize an organization’s development through strategic planning processes, master tools for collective problem-solving, and analyze, process, and compile plans for continuous performance improvement.

Concepts, methods, and tools of Quality Management to foster the development of a collective culture of quality. Ability to understand and contextualize an organization’s development through strategic planning processes, master collective problem-solving tools, and analyze, process, and develop plans for continuous performance improvement.

This course aims to provide students with mathematical modeling tools for solving engineering problems.

This course aims to provide students with methods and tools for the statistical control of the production process in the context of quality and cost. To understand and analyze the various statistical indicators of the production system.

This training course aims to provide the basic concepts of risk analysis methods and tools to establish, develop, and maintain trust within any organization or project. International standards for quality, environmental, health, and safety management, as well as sustained success, are analyzed in depth. The course covers adapting the organization to reflect the risks perceived by different stakeholders, implementing feedback, and integrating it into the information system. By the end of the training, participants will be able to apply international risk management standards.

This course aims to train students in industrial modeling methods and tools to improve the optimization of production system performance in terms of on-time delivery and cost. It also aims to help students understand lean manufacturing principles through concrete industrial examples.

This course aims to train students in industrial modeling methods and tools to improve the optimization of production system performance in terms of on-time delivery and cost. It also aims to help students understand lean manufacturing principles through concrete industrial examples.

This course provides students with the necessary foundations for designing and using a robotics system, covering its various aspects and teaching them how to select the appropriate processing system.