Page 2 of 5, 66 Master Programs in Robotics in Europe for 2024

Are you interested in an international career in the field of nanoscience and nanotechnology, both at the fundamental level, and in the design and creation of components at the nanoscale? Then the Fabrication technology for nanosystems in Nanotechnology might be just what you are looking for. By immersing yourself in existing and experimental techniques for modeling and fabricating of micro and nanodevices, you will graduate with a wealth of skills and know-how in a dynamic and cutting-edge field.

Enter the quantum realm and learn to design and create superconducting quantum circuits, working alongside world-class researchers to help design and build Sweden’s quantum computer. Choosing the Quantum engineering profile will give you the opportunity to explore the worlds of molecular electronics, quantum optics and systems, superconducting devices, and more, in one of the best-equipped university cleanrooms in Europe.

If you want to explore the worlds of chemistry and biochemistry at the nanoscale, investigating exciting issues within areas such as solid-state materials, surface chemistry, biomaterials, and more, then this profile could be the perfect choice for you. At the nanoscale, fascinating and mysterious new physical, chemical, and biological properties emerge, and you will have the chance to work alongside renowned researchers in world-class facilities, operating at the global forefront of the race to understand these phenomena.

Do you want to be a specialist in AI? In a modern world, Artificial Intelligence will play an increasingly important role to create breaking-ground technology and as a tool to understand the society. The Master’s programme in Artificial Intelligence aims to give you the fundamental knowledge and practical skills you need to design, build, and apply AI systems in your chosen area of specialisation.

Nanotechnology is an exciting field within science and technology related to materials and device structures with characteristic dimensions in the nanometer regime. The labour market in this emerging area is growing significantly, and nanotechnology is penetrating several technology sectors.

Courses focus on the most important topics of modern control theory, such as optimal control, stochastic control, robust control, fuzzy control, and adaptive control, as well as on the problems of systems identification and adaptive signal processing.

You strive to qualify yourself for your career in a highly future-oriented field, and you seek scientific work with innovative technology – in this case, the Master's study program Micro- and Nanotechnology is a perfect choice.

The rise of robotic intelligence is reshaping our world. From transport to healthcare to manufacturing, organisations are discovering ways to improve task delivery and solve complex challenges. Join the revolution with our MSc Robotics and Automation postgraduate degree. Providing a strong foundation in control engineering and intelligent systems concepts, this practical and relevant course is recommended for industry professional and engineering-based graduates seeking to develop specialist knowledge and build a robotics-focused skillset.

The objective of this Master's program is to train young scientists with up-to-date knowledge and techniques in the fast-growing (and of particular importance for society) field of Advanced Materials and Nanotechnology. The students are specialized in one of the research areas of the program with the aim to create proper conditions for a successful professional career in the public or private sector, in industry or in research organizations.

The main objective of this specialism in Control and Robotics is to master the modeling and control of complex robots evolving in dynamic environments by using proprioceptive and exteroceptive perception. The focus is on advanced robotics, but more generally the specialism deals with modern techniques in systems engineering for the modeling simulation, optimization, analysis, and control of a variety of robotics systems.

The JEMARO Master's program is designed to promote a high-quality educational offer in the area of advanced and intelligent robotics with specific stress on Artificial Intelligence (AI).

Digital Transformation through designing, creating and controlling autonomous robots in a production or logistics context sounds interesting to you? Find out more about the Specialization "Autonomous Robotics" in the Master´s program Information Systems Engineering and Management.

Specific objectives of specialization: preparing mechatronics engineers for multidisciplinary research; initiating technical cooperation in the area of advanced mechatronics by deepening specialization and applied mechatronics; deepening mechatronic systems using nuanced and relevant evaluation criteria and methods - simulation modeling - to formulate value judgments and base constructive decisions; acquisition of information technology with applicability in mechatronics through the development of practical skills for design and technological construction of components and methods of using acquisition systems and image processing; preparing students for a thorough knowledge of components of mechatronic systems; developing creative behavior with specific mechatronic products through the development of professional projects and/or research; underlining the need for diagnosis and maintenance of mechatronic systems; skills needed for students to design, optimize and deploy applications in industrial mechatronics, services, medicine, the military, virtual and augmented reality applications, etc; addressing problems in the spirit of constantly dynamic economy requirements.

The follow-up master's study of Nanotechnology is intended for graduates of a bachelor's study of Nanotechnology or branches focused primarily on materials science, applied physics, and chemistry. Theoretical subjects, dealing with the relationship between the structure and optical, magnetic, and other properties of nanomaterials, are supplemented by work in laboratories using modern diagnostic devices.

The condition for admission to study in the follow-up Master degree programs is the secondary education with the secondary school leaving examination and the proper completion of studies of any type of degree program (Bachelor, Master, doctoral) completed by the final state examination.