A masters refers to the completion of a graduate study program that prepares students to further their knowledge of a specific subject or advance their careers. The majority of masters are granted by state or public universities.
With a strong emphasis on mathematics and engineering, the field of robotics is rapidly changing to meet the demands of a global economy. This field can prepare students for positions around the world in many industries as well as in research, medicine, and education.
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ECAM Lyon has been perfecting the art and methods of training engineers since 1900. Accredited by the CTI (Commission des Titres d’Ingénieur) this engineering school has always been able to provide its students with a human and scientific perspective of all major world changes whether economic, technical or industrial. This vision has allowed the students to face the challenges of a constantly changing industrial world. [+]
The Master's track in Cognitive Science and Artificial Intelligence provides you with a deep understanding of human cognition and communication, as well as the creative and technical skills to apply this knowledge in Artificial Intelligence solutions and applications. [+]
The Master‘s Study Branch of Nanotechnology is the second level of nanotechnology study following upon Bachelor’s study. [+]
For Master of Engineering students there are four prescribed areas of concentration within the Robotics curriculum. In consultation with the academic advisor, students should choose electives from these areas to make a well-structured academic program. [+]
The purposepurposeaim of the Master’s programme in Systems, Control and Robotics is to equip students with the skills necessary tothe analyse, design and control complex technical systems. [+]
Master in Systems, Control and RoboticsThe purposepurposeaim of the Master’s programme in Systems, Control and Robotics is to equip students with the skills necessary tothe analyse, design and control complex technical systems. Such systems are key components in infrastructure and industry, andplay a host a wide array of functions in our daily lives. Therefore, the successful integration of cutting-edge training in engineering with a balanced, holistic systems perspective will remain a crucial area of specialisation for the future.Programme outlineThe Master’s programme is taught in English and involves team collaborations and projects emphasising the academic and cultural diversity of the field. The coursework is based around four areas of focus: Robotics and Autonomous Systems (AS), Networked Control Systems (NC), Systems and Control Theory (SC) and Electric Energy Systems (ES). Students will be able to incorporate and use KTH’s strong ties with research and industry leaders for their thesis project in the second year, providing them with excellent career opportunities. Degree projectThe Master's thesis project is typically carried out during the second half of the second year, upon completion of the necessary programme credits. The project may involve work in a relevant industry or in a department at KTH, and may be combined with course work. For students who wish to pursue a career in research, the thesis project offers an excellent opportunity to develop contacts and the skills necessaryeded to work within a research group; and for those wishing to go into industry, it serves as an important introduction and practical foundation for a career with a prospective employer.Career prospectsA two-year Master’s degree in Systems, Control and Robotics rests on a core set of courses in systems and control and related subjects, and provides the opportunity to utilise a unique cross-section of courses from different disciplines – integrating, for example, Computer Science and Control Theory – to create a comprehensive education. As systems and control engineers require extensive training in the design and analysis of complex technical systems, this Master’s programme provides a strong foundation in both theory and practice. From advancements in health care and the vehicle industry, to providing a variety of important functions in all forms of manufacturing, a large variety of different system examples allow engineering students to combine several educational areas in new, innovative ways.... [-]
The Master of Engineering in Automatic control, signal and Image is designed to promote a high-quality educational offer for the european and international students in the area of Automatic Control, and Production systems. [+]
This Master is internationally recognized and accredited by the French Ministry of Higher Education.
This Master is internationally recognized and accredited by the French Ministry of Higher Education. The quality of its courses has been recognized in the prestigious Erasmus Mundus framework of the European Commission
Language of teaching
Courses fully taught in English during the two years.
TRACK: CONTROL OF SYSTEMS
The aim of this track is to present the most recent results in modern control theory including application of optimization methods in control system design. Analysis and design of nonlinear control systems and structural approach to control will be given. An important topic of the track are advanced industrial control techniques, mainly structures and algorithms of linear and nonlinear model-based predictive control. These are presented within a general framework of a multilayer control structure, consisting of basic control, advanced control and set-point optimization layers.. ... [-]
The Master's programme in Robotics and Control provides a comprehensive foundation for a professional career in the field of robotics. [+]
Master's Programme in Robotics and Control
The Master's programme in Robotics and Control provides a comprehensive foundation for a professional career in the field of robotics. The programme is interdisciplinary, covering robotics related to both artificial intelligence and control systems, with contributions mainly from the Departments of Computing Science and Applied Physics and Electronics.
TeachingFocus may be put on either artificial intelligence related robotics or control related robotics, depending on the student's interests and qualifications.A relevant curriculum is guaranteed by lectures and hands-on assignments relating directly to ongoing research projects. Many courses in the program contain a large portion of laboratory work in order to provide experience with relevant software and hardware.... [-]
The Master in Automatic Control, Automation and Robotics raises the necessary training in the areas of Automation, Home Automation and Robotics for industry professionals have the knowledge and tools necessary to design, implement and monitor projects in the sector with current advanced technologies. [+]
The Master of Engineering (Industrial Automation) perfectly addresses this gap in the Industrial Automation industry. [+]
The international Master MRT is designed to train international students interested in developing their professional knowledge and skills in [+]
The Czech Technical University (CTU) in Prague, Faculty of Electrical Engineering (FEE) opens a bachelor and master degree study program Cybernetics and Robotics. [+]
Robotics is a unique programme that occupies the area where mechanical and electrical engineering and computer technology meet [+]
Master Programme in Robotics
Robotics is a unique programme that occupies the area where mechanical and electrical engineering and computer technology meet. The depth and breadth of the course (Master Programme in Robotics) allows you considerable freedom of choice as to where you work. The fact that the field is so expansive is not surprising in view of the fact that, before long, robots will have been introduced in almost all types of production systems, and service robots will soon feature as part of our everyday lives
The master’s programme provides the student with in-depth knowledge of robot systems, robot simulation and mathematical methods in the field. You can apply for this course (Master Programme in Robotics) irrespective of whether you have studied mechanical or electrical engineering, or computer technology as your first degree worth 180 HE (Higher Education) credits. It also includes an independent project assignment linked to industry and research. Examples of such projects include constructing, simulating or constructing a robot ¬system.... [-]