A Master of Science or MSc is a postgraduate degree typically in the fields of sciences and social sciences. MSc may be course-based, research-based, or a mixture of the two.
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.
Graduates receive key competences in Computer Science, Robotics and Programming. They learn how to develop frameworks and algorithms for Human-computer/robot interaction
Graduates receive key competencies in Computer Science, Robotics, and Programming. They learn how to develop frameworks and algorithms for Human-computer/robot interaction and new robotics solutions with elements of AI.
Students acquire such skills as programming industrial and mobile robots, developing control algorithms for robotic systems, working with computing vision systems and modeling and prediction robot behavior.
Advanced robotic manipulation
Sensation and perception
Embedded system design and programming
Identification and Simulation
Dynamics of Nonlinear Systems
Intelligent mobile robotics
Introduction to research
The Skolkovo Institute of Science and Technology (Skoltech)
This program combines the study of the general principles of complex engineering system construction with participation in satellite, drone and robotic systems-building p
This program combines the study of the general principles of complex engineering system construction with participation in satellite, drone and robotic systems-building projects. The program is also aimed to provide the fundamental skills in data analysis for the development of complex system applications fostering the synergies and interdependencies between engineering, industry, and space science (satellite imagery and communications, satellite navigation, remote sensing and in-situ data of space weather). We teach students to find creative solutions to the biggest challenges of space and robotics industries.
Modes and duration: 2 years (full-time)
Tuition fees: no tuition fees for those who successfully pass the selection
Graduates possess both, knowledge and abilities necessary for creative work in design, construction, programming and analysis of automation and control systems, and can o
Faculty of Power and Aeronautical Engineering
Master of Science in Engineering
1.5-year or 2- years graduate courses are offered in the area of:
Aerospace Engineering (1.5-year)- with PEGASUS excellence diploma
Power Engineering (1.5-year) Nuclear Power Engineering (2-years) Robotics (2-years)
All programmes provide students with advanced theory and engineering methods. Students learn about recent achievements in their fields of study as well as about methods and tools that prepare them for management positions in industry or research areas. The last semester of the programme is dedicated to solving a research problem. The problem statement and solution are the elements of the M.Sc. thesis which is submitted at the end of studies....
The word Nanoscience refers to the study, manipulation, and engineering of matter, particles, and structures on the nanometer scale. Nanotechnology is the application of
The word Nanoscience refers to the study, manipulation, and engineering of matter, particles, and structures on the nanometer scale. Nanotechnology is the application of nanoscience leading to the use of new nanomaterials and nanosize components in useful products.
KU Leuven offers this joint Erasmus Mundus Master together with universities in Barcelona (Spain), Chalmers (Sweden), Grenoble (France) and Dresden (Germany).
What’s the Erasmus Mundus Master of Nanoscience and Nanotechnology all about?
Within the Erasmus Mundus framework, four leading educational institutions in Europe offer a joint Erasmus Mundus Master of Science in Nanoscience and Nanotechnology. The partner institutions are:...
Robotics is one of the most discussed topics in recent years; robots are becoming ubiquitous in industrial environments as well as in everyday life. However, as the adopt
Robotics is one of the most discussed topics in recent years; robots are becoming ubiquitous in industrial environments as well as in everyday life. However, as the adoption of robotic technology progressively rises, the skill shortage in robotic engineers will also widen accordingly. This Robotics MSc course will offer students the opportunity to gain practical robot programming experience.
Who is it for?
As the demand for robotics engineer is increasing this course has been developed for graduates to equip themselves with the skills and knowledge required for associated careers. This course is suitable for those with essential engineering mathematics knowledge and basic computer programming skills....
Technical University of Denmark (DTU) Graduate Programs
The MSc programme in physics and nanotechnology focuses on physics as the basis of modern technology.
The gap between scientific research and technological breakthroughs
The MSc programme in Physics and Nanotechnology focuses on physics as the basis of modern technology.
The gap between scientific research and technological breakthroughs is narrowing. Therefore, in areas such as nanotechnology and sustainable energy, there is a growing need for engineers who can combine solid scientific knowledge with extensive engineering skills.
Study programme focus
The MSc programme in Physics and Nanotechnology covers a wide range of technological, theoretical, and experimental techniques in modern physics. The applications include various topics, such as the development of nano-structured materials with tailor-made electrical, magnetic, optical, mechanical and chemical properties, manufacturing and integration of nano- and micro-components in systems design, modeling of complex biological systems, optical data processing and transfer, and the development of technologies for sourcing, storing, and converting sustainable energy—e.g. fuel cells and hydrogen technology....
University Of Genoa (Università Degli Studi Di Genova)
Robotics Engineering is the local track of the Emaro+ double degree international Master. Emaro+ students attend each year in a different European university; local stude
Robotics Engineering is the local track of the Emaro+ double degree international Master. Emaro+ students attend each year in a different European university; local students attend at UNIGE the whole single degree. The track, totally in English, has a structure compliant with international standards: continuous assessment, few exam sessions, laboratory activity, one full semester thesis. Students mobility abroad, as well as achieving the degree in two years are encouraged.
Learning by doing
Robotics Engineering uses the EMARO+ philosophy of learning through reflection on doing, as a paradigm complementary to the traditional didactic learning. Theoretical study is interleaved with laboratory practical and experimental work. A group project course (developing lab projects by teams of students) is mandatory in the first year. The Master Thesis work spans over a full semester; some theses can be carried out in industry or in foreign research institutions....
Do you want to become an expert in factory automation and robotics? Join our international and inspiring learning environment!
After completing the programme, you will be
Reach higher – choose automation!
Do you want to become an expert in factory automation and robotics? Join our international and inspiring learning environment!
After completing the programme, you will be qualified to pursue a wide range of career opportunities in different fields of automation. You will also have the knowledge and skills to pursue a career in industry or continue your studies towards a doctorate.
To be a successful student of Factory Automation and Robotics, you need to have a background in an applicable field of engineering. We also require proficiency in mathematics and physics and strong programming skills.
The studies consist of two majors that complement each other. The studies in factory automation and industrial informatics prepare you to apply systems thinking to design, develop and integrate factory automation and information systems. The robotics major provides you with skills and knowledge related to robotics and the technology involved, such as the fundamentals of robotics, the control of robotics and sensing/perception systems....
During your studies, you will find the answer to why and how the technology works – and you will use that knowledge to develop, for example, optically based...
Optics, Sensors and Nanotechnology is one of two specialisations available to master students in the field of Physics and TechnologyDuring your studies, you will find the answer to why and how the technology works – and you will use that knowledge to develop, for example, optically based faster computers or new optical measurement methods for diagnosing cancer, or ultra-sensitive sensors capable of detecting the presence of just a few molecules of narcotics or explosives.
This is a two-year master degree. To study a master degree in Optics, Sensors and Nanotechnology, you must have a relevant bachelor degree (three years of the previous study at university level within a similar field)....
RWTH International Academy / RWTH Aachen University
The M.Sc. Robotic Systems Engineering (RoboSys) at the RWTH Aachen University addresses specifically the purposes of the practicing mechanical engineer. The programme is
Robotic technology and cyber-physical systems are widely applied in different ways, such as industrial machines, automobiles, (micro)-electric industries, as well as aerospace and air transport industries. The M.Sc. Robotic Systems Engineering (RoboSys) at the RWTH Aachen University addresses specifically the purposes of the practicing mechanical engineer. The program is tailored for robotic specialists and provides an outstanding education at the interface between mechanical engineering, electrical engineering, and computer sciences. The program features two main themes:
The optimal application of robots
The development and construction of new robotic systems
work at companies such as Anvis, BASF, Continental, Fiat, Ford, Kautex, Liebherr, Rolls Royce, Toyota, Volkswagen.
find a job within 3 months after graduation (about 68%)
increase their salary by up to 100% (about 53 %).
The objective of the programme is to prepare a professional figure expert in materials and in the design of processes and manufactured goods.
Mission and Goals
This Master of Science programme is taught entirely in English to stimulate the student in acquiring a greater familiarity with the terminology used internationally. The objective of the programme is to prepare a professional figure expert in materials and in the design of processes and manufactured goods.
Within the scope of the study plan a number of specific specialisations are foreseen:
Nanomaterials and Nanotechnology
The Master of Science graduate in Materials and Nanotechnology Engineering has the ability to devise and manage innovation in the materials industry; he/she finds employment mainly in companies specialised in producing, processing and design various materials and components, as well as in the area of the development of new applications in the mechanical, chemical, electronics, energy, telecommunications, construction, transport, biomedical, environmental and restoration industries as well as in research and development centres of companies and public bodies....
The programme trains highly qualified roboticists, computer and space engineers.
Master’s programme in Robotics and Computer Engineering trains highly qualified roboticists, computer and space engineers. The programme provides broad knowledge in the field of robotics, computer engineering or space technology. Graduates can work in enterprises or research and development centers connected to their field of study.
Why study Robotics and Computer Engineering?
The University of Tartu belongs to the TOP 1.2% of the world's best universities.
Studies are conducted in collaboration with research groups: students have an opportunity to build their own satellite! Student satellite EstCube-2 will be launched in 2018 while the first one, EstCube-1, launched in 2013, made ...
The Institute of Automation and Robotics of the Faculty of Computing at Poznan University of Technology (PUT), Poland offers Master of Science in Automatic Control and Ro
Master Degree in Automation and Robotics, specialization: Smart Aerospace and Autonomous Systems (SAAS)
The Institute of Automation and Robotics of the Faculty of Computing at Poznan University of Technology (PUT), Poland offers Master of Science in Automatic Control and Robotics with specialization Smart Aerospace and Autonomous Systems (SAAS) – Autonomiczne Systemy Latające na kierunku Automatyka i Robotyka.
The last decade has seen a significant increase in research in Smart Aerospace and Autonomous Systems. Now, the field is sufficiently mature to engage in a procedure of education. From an educational point of view in the SAAS program we are interested in developing, modeling, simulating and testing guidance, navigation, control and decision systems for autonomous operation of unmanned aerial vehicle systems, unmanned ground vehicle and autonomous and robot systems. Issues of special interest include the determination of levels of autonomy and integration of control, online decision systems, mission planning, trajectory generation and tracking and limited communication....
The Masters of Science in Engineering in Artificial Intelligence and Robotics (LM-28224) aims to provide students with the knowledge and ability to design and implement a
The Masters of Science in Engineering in Artificial Intelligence and Robotics (LM-28224) aims to provide students with the knowledge and ability to design and implement artificial intelligence and robotic systems, as well as the interdisciplinary skills that are essential to managing complex projects and their impact on the society.
Computer Engineering is among the fastest growing fields and presents unlimited opportunities in nearly every field. Students will learn to:
Design and develop advanced knowledge-based and multi-agent software systems;
Design and develop robotic systems for services and industrial applications, including safety and security, space, home, care of the...
Through the Master's Programme in Electronics and Nanotechnology you can become a future trailblazer and game changer in wireless technologies, space technology or nanote
Through the Master's Programme in Electronics and Nanotechnology you can become a future trailblazer and game changer in wireless technologies, space technology or nanotechnology.
Electronics and nanotechnology enable many new things in our world: life becomes wireless with a growing number of mobile devices surrounding us, space technology is sky rocketing in the form of small satellites, and nanotechnology enables major breakthroughs in many fields, such as solar energy harvesting. Through the Master's Programme in Electronics and Nanotechnology you can become a future trailblazer and game changer in one of these fields.
The programme offers you fundamental knowledge in one of the following areas:...