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.
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.
Request Information Part time Masters Degrees in Robotics 2019
The aim of this programme is to train new professionals specialised in the field of Nanotechnology, Materials and Chemical Engineering (coming from undergraduate degrees in any of the branches of experimental sciences and technologies: Chemistry, Chemical Engineering, Biochemistry, Biotechnology, Physics, Quantum Chemistry, Biological Chemistry, Microbiology,...) with a clear orientation towards research... [+]
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.Collaborating Institutions Universitat de Barcelona Institut de Microelectrònica de Barcelona Institute of Chemical Research of Catalonia, ICIQ Admission ... [-]
The Nano Science and Technology (NSNT) Programme, defined on the basis of the three above elements, aims to educate students with the necessary interdisciplinary knowledge to contribute to the long-term nanoscale research and development, which will lead to potential breakthroughs in areas such as materials and manufacturing, nanoelectronics, medicine and healthcare, environment, energy, chemicals, and biotechnology. [+]
Nanoscience and technology are perceived as one of the most important areas affecting mankind in the 21st century. Nanoscience and technology are inherently interdisciplinary in nature. By being able to tailor material properties at the most fundamental level, nanotechnology is envisioned to impact virtually everything, from communications to energy production, environmental management, medicine, computing, and education. The scope of nanoscience and technology research may range from nanomaterials to computer electronics, medicine, and health care, aeronautics, and space, environmental studies and energy, biotechnology and agriculture, national security and education.
Pearl River Delta is well-organized to be one of the manufacturing centres of the world for a very diversified range of products. As the leading city in this region, it is imperative that Hong Kong plays the leading role in research as well as personal training for the coming wave of nanotechnology revolution.... [-]
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 training as well as to the development of technology and to commercialization efforts. 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. [+]
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.... [-]
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 training as well as to the development of technology and to commercialization efforts. The MPhil programme is designed for those interested in pursuing a career in research and development in industry or academia and is an excellent preparation for a PhD degree. [+]
Power ahead and make your postgraduate studies really count in the Department of Electronic and Computer Engineering. The recent evolution of Electronic and Computer Engineering has been developed into a wide-ranging discipline covering technologies critical to the growth of the knowledge economy.
Networking, wireless communications, multimedia signal processing, microelectronics, microprocessors, IC design, optoelectronics, display technologies, and control and robotics all fall into this exciting discipline. Advanced training in these fields opens up a wealth of career opportunities in the manufacturing industry, business sector, government, and universities worldwide.... [-]
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 training as well as to the development of technology and to commercialization efforts. The MPhil programme focuses on strengthening students' knowledge in certain areas of Civil and Structural Engineering and exposing them to the issues involved in the conception, design, construction, maintenance, and use of structures and facilities. [+]
As a postgraduate student in the Department of Civil and Environmental Engineering, you will have the opportunities to make a world of difference by building knowledge at the forefront of the field, helping minimize environmental hazards and improving the quality of people’s lives.
The Civil Engineering field is developing rapidly. Almost any solution to a societal problem has some connection with civil engineering. Such solutions include the development, utilization, and control of resources for the benefit of people. Broad-based and in-depth knowledge of the discipline together with an understanding of new design concepts and technologies is essential for those who wish to become leaders in this part of the engineering profession. The Department's postgraduate programmes seek to develop such knowledge and skills and to relate research efforts closely to the interests and needs of the society so that our research is relevant and has practical value. Postgraduates may concentrate in structural, environmental, geotechnical engineering, water resources, transportation, construction engineering or infrastructure development.... [-]
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 training as well as to the development of technology and to commercialization efforts. The MPhil programme aims to strengthen students’ fundamental knowledge of Chemical Engineering, with specialization in the areas of chemical processing, materials, environment, energy, and bioengineering. [+]
Working at the cutting edge of the field with top international scientists, our postgraduate programmes seek to ensure that each student:attains an in-depth understanding of fundamental yet advanced chemical engineering topics; exercises intellectual curiosity in probing chemical engineering subjects at the frontiers of chemical engineering; develops skills to pursue new knowledge, both basic and applied, independently; and engages in pioneering research in this and related disciplines.
The Department emphasizes both academic excellence and industrial relevance and, wherever possible, programmes are set in the context of local industry needs and explore the potential of creating demand for new technologies.... [-]
Our robotics masters program, offered by the Maryland Robotics Center and Institute for Systems Research, is designed to meet the educational needs of engineering professionals currently working in or wishing to enter the fast-growing field of robotics and autonomous systems. Our program curriculum is designed to build understanding and expertise in robotics design, modeling, control systems, autonomous vehicle planning and perception, machine learning, and human-robot interaction. With a range of technical electives, students pursuing a robotics engineering degree are able to tailor their coursework towards their area of interest in robotics including artificial intelligence, computer vision and perception, space and planetary robotics, robot kinematics and dynamics, control, networked robotic systems, robotics at micro and Nano scale, and rehabilitation robotics. [+]
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 [-]