Taught in English, the programme will train specialists in artificial intelligence theories, techniques, approaches and use in complex applications across scientific and technological sectors, including industry, the environment, biomedical systems, embedded systems and complex physical systems.

Graduates in Artificial Intelligence for Science and Technology can provide a significant contribution to the dissemination and advancement of knowledge and skills in this discipline and its applications. They can foster technological innovation, even for complex problems and systems, promote innovation in business management and public administration, and bring innovative, creative ideas to the country's economic and social development.

Specialist in Artificial Intelligence for Industry and the Environment

Graduates will be able to work on the design, implementation and management of computer systems, including complex ones, for smart embedded systems and their applications, as well as coordinating and leading groups working in these areas. More specifically, they may use their skills in the field of AI-enabled signal and image processing, as well as human-machine interaction and control. They may be employed or work as freelancers across private and public sectors in the field of embedded systems (e.g. industrials, biomedical, automotive and transport). Key market segments are consumer electronics; biomedical companies; automotive and transport; the Public Administration and service providers in the industrial, environmental, biomedical, health, automotive and transport sectors; research institutions and academia (e.g. technical support to research and experimentation, smart embedded systems).

Specialist in Artificial Intelligence for Smart Embedded Systems

Master's graduates will be able to work on the design, implementation and management of computer systems, including complex ones, for smart embedded systems and their applications, as well as coordinating and leading groups working in these areas. More specifically, they may use their skills in the field of AI-enabled signal and image processing, as well as human-machine interaction and control. They may be employed or work as freelancers across private and public sectors in the field of embedded systems (e.g. industrials, biomedical, automotive and transport). Key market segments are consumer electronics; biomedical companies; automotive and transport; the Public Administration and service providers in the industrial, environmental, biomedical, health, automotive and transport sectors; research institutions and academia (e.g. technical support to research and experimentation, smart embedded systems).

Specialist in Artificial Intelligence for Signal and Image Detection and Processing in the Healthcare and Environmental Sectors

Graduates will be able to work on the design, implementation and management of computer systems, including complex ones, for signal and image detection and processing applications in the healthcare and environmental sectors, as well as coordinating and leading groups working in these areas. More specifically, they may use their skills in the field of AI-enabled sensors, signal and image processing, as well as knowledge extraction from environmental and biomedical images and signals. They may be employed or work as freelancers across private and public sectors in the healthcare and environmental fields. Key market segments are the manufacturing of healthcare and environmental systems and components; the Public Administration and service providers in the health and environmental sectors; research institutions, universities and hospitals (e.g. technical support to research, experimentation, diagnosis and healthcare).

Specialist in Artificial Intelligence for Complex Systems and Quantum Technologies

Graduates will be able to work on the design, implementation and management of computer systems, including complex ones, for the modelling, analysis and simulation of physical systems and for applications based on quantum computing, as well as coordinating and leading groups working in these areas.
They may be employed or work as freelancers across private and public sectors for modelling complex physical systems and information processing based on quantum computing. Key market segments are: companies relying on models of complex physical phenomena and systems or quantum approaches to deal with complex problems in a wide range of sectors (e.g. manufacturing, new materials, pharmaceutical and chemical industries, environmental management, healthcare); the Public Administration and service providers in these sectors; research institutions and academia (e.g. technical support to research and experimentation).