Master-level studies involve specialized study in a field of research or an area of professional practice. Earning a master’s degree demonstrates a higher level of mastery of the subject.
Earning a master’s degree can take anywhere from a year to three or four years. Before you can graduate, you usually must write and defend a thesis, a long paper that is the culmination of your specialized research.
Robotics, a field that was only theoretical a few decades ago, has become indispensable to a number of industries all around the world. Students should have knowledge of mathematics and sciences to provide a foundation for the coursework in technology and engineering necessary for a career in robotics.
Umeå University - Faculty of Science and Technology
The Master's program in Robotics and Control provides a comprehensive foundation for a professional career in the field of robotics.
Master's Program in Robotics and Control
The Master's program in Robotics and Control provides a comprehensive foundation for a professional career in the field of robotics. The program 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.
TeachingThe focus 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....
National University of Science and Technology MISiS
Two-year master's program devoted to the study of micro- and nano-scale phenomena, materials, and devices.
The two-year Master’s degree program in Nanotechnology and Materials for Micro- and Nanosystems is devoted to the study of micro- and nano-scale phenomena, materials, and devices. It gives students a solid foundation in three core areas: nanomaterial fabrication and characterization; physical properties; and devices. The students will also understand the potential for the technology commercialization and its social impact. The program includes compulsory foundational courses along with elective courses focusing on specific materials and devices. The list of the main thematic areas included in the program is as follows:
Nanoscale science and Fundamental concepts in nanotechnology;
Modeling and simulation;
Nanofabrication and Structural characterization;
Magnetic nanosystems and nanoparticles;
Materials and devices in spintronics;
Semiconductor devise physics and technology;
Technology of carbon nanomaterials;
Embedded systems and software engineering;
Micro and nanosensor technology.
University of Maryland, A. James Clark School of Engineering
Our robotics masters program, offered by the Maryland Robotics Center and Institute for Systems Research, is designed to meet the educational needs of engineering profes
Requirements specific to the robotics engineering program include:
A bachelor's degree, GPA of 3.0 or better, in aerospace, civil, computer, electrical, industrial, or mechanical engineering from an accredited institution
Completion of calculus I, II, and III and differential equations
Learn about state-of-the-art artificial intelligence and robotics together with some of Sweden's leading researchers. Our highly rated programme prepares you for advanced
Learn about state-of-the-art artificial intelligence and robotics together with some of Sweden's leading researchers. Our highly rated programme prepares you for advanced development and research in AI, self-driving cars, smart homes and more.
The International MSc programme in Robotics and Intelligent Systems gives you a computer science degree at the cutting edge of today’s research in AI and smart robots. Within the programme, you will learn (among other things) about the methods used by autonomous vehicles to know where they are, how the navigation software in your phone finds the best route, and the sensors that robots and intelligent systems use to perceive the world, as well as machine learning methods used by computers to make difficult choices or learn to recognise the patterns around them....
Mechatronics is the integration of mechanics, electrical machines, automation equipment, power electronics, microprocessor technologies, and software. The newest directio
The duration of the program is 2 years.
Mechatronics is the integration of mechanics, electrical machines, automation equipment, power electronics, microprocessor technologies, and software. The newest direction of engineering is considered to be one of the most promising and requires Universities to prepare real professionals.
Graduates in the field of training "Mechatronics and Robotics" have the opportunity to work in modern international engineering companies and high-tech manufacturing enterprises where the design, production, commissioning and operation of modern robotic equipment are held.
The Masters Degree Programme in Nanotechnology Engineering trains engineers in the design, development and control of complex systems based on Nanotechnology.
The Masters Degree Programme in Nanotechnology Engineering trains engineers in the design, development and control of complex systems based on Nanotechnology. Starting from their basic background in engineering, students will be introduced to the basic tools necessary to master systems operating at the nanoscale with the purpose of conceiving, designing and characterizing micro and nanodevices.
The course is highly interdisciplinary, involving nanoscale physics, advanced chemistry and microscopy in combination with courses and laboratories devoted to the design of micro- and nano-devices for different application in industry, biotechnology and nano-electronics.
Students can choose one of the following three programmes:...
The Signal and Image Processing (SIP) program provides the necessary skills in signal modeling, image processing and machine learning, relevant to the theory and the prac
Signal and Image Processing (CORO SIP)
The Signal and Image Processing (SIP) program provides the necessary skills in signal modeling, image processing and machine learning, relevant to the theory and the practice of data analysis and information retrieval, for the development of modern numerical methods.
The courses of SIP program address the theory and the practice of advanced data analysis techniques, from computational statistics, applied mathematics, scientific computing, and numerical imaging, to their practical implementation in several fields such as biomedical engineering, imaging science, audio processing and information technology.
The key feature of the program is the design of mathematical solutions, for signal and image processing problems, accounting for the physical specificities of this data and adapting the numerical implementation of these solutions to the application context, the data amount and the available computational resources....
The Hong Kong University of Science and Technology
A joint postgraduate programme in Nanoscience and Technology, initiated by the Schools of Science and Engineering, can offer long-term support to our ongoing research and
The Department of Mechanical and Aerospace Engineering (MAE) is one of the leading MAE departments in Asia. It offers rigorous academic and professional training in a wide range of areas, including both traditional and cutting-edge topics in energy, mechanics, advanced materials, nano/biotechnology, and manufacturing.
The Master's programmes focus on strengthening students' background in mechanical engineering, increasing their mathematical proficiency, and exposing them to the environment of engineering research and development.
Students are required to undertake coursework and successfully complete a thesis to demonstrate competence in engineering research. Students must attend seminars. They must also take and pass an English language communication course. The programme normally takes two years of full-time study to complete....
The Master‘s Study Branch of Nanotechnology is the second level of nanotechnology study following upon Bachelor’s study.
The Master‘s Study Branch of Nanotechnology is the second level of nanotechnology study following upon Bachelor’s study. The study program contains more advanced methods of the structural and properties’ study of nanomaterials, theoretical and experimental approaches. During the first year of study, students may choose one of two orientations - physical or chemical. Both orientations have common fundamental theoretical and experimental subjects including modeling and computer design of nanomaterials.
Key Learning Outcomes
The aim of the master‘s study of Nanotechnology is to provide advanced education of characterization and properties of nanomaterials. Students extend their knowledge of mathematics, physics, and chemistry in specialized subjects as electron microscopy, magnetic and optic properties of nanomaterials. The program includes the study of the relationship between properties of nanomaterials and their structures and utility as well. Graduates will have gained detailed knowledge about modern methods of structure study (for example electron microscopy, atomic force microscopy etc.)....
This is a Masters degree designed to train students in the field of Nanoscience and Nanotechnology in order that they can develop a career in this field, or start a resea
This is a Masters degree designed to train students in the field of Nanoscience and Nanotechnology in order that they can develop a career in this field, or start a research activity leading to a doctoral thesis. Areas of knowledge that is inscribed: mainly in the areas of chemistry, physics, engineering, materials science, biochemistry, pharmacy and medicine. The theme of the Master is at the intersection of Nanoscience / Nanotechnology and molecular systems. Therefore affect scientific areas of current interest like Molecular Electronics, Molecular Magnetism, Supramolecular Chemistry, Surface Physics or Science of Molecular Materials.
The Master in Molecular Nanoscience and Nanotechnology responds to the academic and research profile through a range of subjects in scientific and technological areas of current interest such as Molecular Electronics, Nanomagnetism and Molecular Spintronics, Supramolecular Chemistry, Surface Physics, or the Science of Molecular Materials. The "molecular" orientation of this master in Nanoscience makes it unique on a national level and allows developing those aspects of nanoscience that are at the intersection between physics, chemistry and biology / medicine, making it truly multidisciplinary....
Nanotechnology is an exciting field within science and technology related to materials and device structures with characteristic dimensions in the nanometer regime. The l
Nanotechnology is an exciting field within science and technology related to materials and device structures with characteristic dimensions in the nanometer regime. The labor market in this emerging area is growing significantly, and nanotechnology is penetrating a number of technology sectors.
Nanotechnology at KTH
Based on a solid understanding of basic materials science, the program aims to establish an understanding of size-dependent materials, device and system properties, and also how these properties can be tailored by a controlled manipulation of the microstructure down to the atomic or molecular level. Furthermore, it aims to provide a good knowledge of various nano-scale devices as well as their applications and fabrication methods. Special emphasis is paid to the understanding and usage of advanced characterization methods to assess detailed materials and device properties....
The aim of this programme is to train new professionals specialised in the field of Nanotechnology, Materials and Chemical Engineering (coming from undergraduate degrees
The aim of this programme is to train new professionals in the field of nanotechnology, materials and chemical engineering. It is of particular interest for graduates in any of the branches of the experimental sciences and technologies (chemistry, chemical engineering, biochemistry, biotechnology, physics, quantum chemistry, biological chemistry, microbiology, etc.) and it clearly prepares them for future research.
The students will acquire the skills required for them to join universities, research institutes, industry and services with a strong sense of innovation, development and entrepreneurial vision.
Universitat de Barcelona
Institut de Microelectrònica de Barcelona
Institute of Chemical Research of Catalonia, ICIQ
Robots are rapidly transforming the way we live and work and will have an even more revolutionary impact in the years ahead. Learn robotics fundamentals from the world-re
Robots are rapidly transforming the way we live and work and will have an even more revolutionary impact in the years ahead. Learn robotics fundamentals from the world-renowned professors at the GRASP (General Robotics, Automation, Sensing, and Perception) Laboratory, one of the top robotics research centers in the world. In this Robotics MicroMasters program, you will learn the mathematical concepts and the programming tools to design, build and program robots that solve industry-relevant, real-world problems. From self-driving cars to industrial robots working alongside humans, to robot swarms supporting search and rescue operations, this MicroMasters program will help you develop the critical thinking and technical skills necessary to generate new solutions to pressing problems. In each course, you will face a series of week-long challenges based on state-of-the-art research currently underway at the GRASP Laboratory. Through these challenges, you will refine your understanding of core concepts and prove your abilities in the lucrative field of robotics. This rigorous graduate-level series represents 30% of the coursework towards a Master of Science in Engineering degree in Robotics from Penn Engineering. Founded in 1979, the GRASP Laboratory has historically been at the forefront of this rapidly evolving field. Our distinguished faculty is delighted to share with you over 30 years of interdisciplinary research and development, and educational innovation in the field of robotics....
The Master’s Degree in Advanced Robotics is designed to promote a high-quality educational offer in the area of advanced and intelligent robotics. Upon completion of the
The Master’s Degree in Advanced Robotics is designed to promote a high-quality educational offer in the area of advanced and intelligent robotics. Upon completion of the programme graduates will have mastered the different areas of robotics (mathematical modelling, control engineering, computer engineering, mechanical design) in order to be able to deal with robotic systems as a whole rather than just focus on one particular area. The career prospects for graduates are very good, as the proposed courses are relevant to today’s high-technology society. Students may take the Master’s as a professional terminal degree, or join doctoral programmes afterwards.
Robotics is a unique program that occupies the area where mechanical and electrical engineering and computer technology meet. The depth and breadth of the course (Master
Master Program in Robotics
Robotics is a unique program that occupies the area where mechanical and electrical engineering and computer technology meet. The depth and breadth of the course (Master Program in Robotics) allow 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 program 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 Program 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....