Compare Masters Programs in Robotics 2019 in Stockholm in Sweden
A masters is earned after students complete an undergraduate degree program. To obtain a masters, you usually need to complete 12 to 18 college courses that often involve completing comprehensive tests and/or a thesis.
Robotics programs take a multi-disciplinary approach to problem solving and critical thinking while designing, creating, and implementing robotic machinery. Students who are drawn to computer science and engineering may enjoy the challenges of this field that is used in manufacturing, research, medicine, and the military.
Sweden, officially the Kingdom of Sweden, is a Scandinavian country in Northern Europe. Sweden borders Norway and Finland, and is connected to Denmark by a bridge-tunnel across the Øresund. Sweden is a developed post-industrial society with an advanced welfare state. The standard of living and life expectancy rank among the highest in the world.
Being the largest city in Sweden, Stockholm has over 1.3 million people in the urban area. The city comprises of several Islands and it is the capital city of Sweden. Stockholm has over 10 universities and colleges.
Request Information Master's Degrees in Robotics in Stockholm in Sweden 2019
The scientific discipline of Machine Learning focuses on developing algorithms to find patterns or make predictions from empirical data. The discipline is increasingly us
The scientific discipline of Machine Learning focuses on developing algorithms to find patterns or make predictions from empirical data. The discipline is increasingly used by many professions and industries (for example manufacturing, retail, medicine, finance, robotics, telecommunications), as it can help create order in large amounts of digital data to solve difficult problems such as understanding human behaviour and providing efficient resource allocation. Demand for graduates with substantive expertise in machine learning far exceeds supply. The programme here at KTH equips you for a career in industry (a start-up or a traditional well-established company) and will also prepare you for further studies at PhD-level....
The purpose of the master’s programme in Systems, Control and Robotics is to equip students with the skills necessary to analyse, design and control complex technical sys
The purpose of the master’s programme in Systems, Control and Robotics is to equip students with the skills necessary to analyse, design and control complex technical systems. Such systems are key components in infrastructure and industry, and 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.
Systems, Control and Robotics at KTH
The master’s programme involves team collaborations and projects emphasising the academic and cultural diversity of the field. 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....
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....