Compare Masters Programs in Systems Engineering 2019 in Stockholm in Sweden
A masters is the first level of graduate coursework and can be obtained after you receive a bachelor’s degree. Earning a masters usually requires two years of full-time study, which amounts to 36 to 54 semester credits.
Individuals with an interest in improving manufacturing or design processes may wish to pursue a program in systems engineering. Students can find instruction in the design and architecture components of improving systems, as well as studies concerning the techniques, tools and methods for successful integration of new developments.
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 Systems Engineering in Stockholm in Sweden 2019
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....
Emerging computer networks and communication technology provide a new technological foundation for designing software systems. The systems become distributed, reconfigura
Emerging computer networks and communication technology provide a new technological foundation for designing software systems. The systems become distributed, reconfigurable and adaptive, and their components employ a high degree of autonomy. This is an exciting and rapidly evolving field in which there is a continuous demand for qualified software engineers on the world labour market.
Software Engineering of Distributed Systems at KTH
The set of devices in which distributed software applications may operate ranges from workstations to PDAs. New technological developments create considerable demand from industry and for engineers who are able to design software systems utilising these developments. This master’s programme is intended to be an educational response to such industrial demands. It provides students with state-of-the-art knowledge of the field and develops their practical skills in order to meet current industrial requirements, as well as enhancing their ability to adapt to the new developments in tomorrow’s technology....
Communication Networks have evolved dramatically over recent decades. Accommodating the data traffic generated by anticipated billions of users and trillions of digital d
Communication Networks have evolved dramatically over recent decades. Accommodating the data traffic generated by anticipated billions of users and trillions of digital devices necessitates continuous technological evolution. Novel internet and wireless infrastructure will be needed to cater for these challenging and unprecedented growth and performance characteristics. The KTH master’s programme in Communications Systems will prepare you for a career in such an essential field for our society.
Communication Systems at KTH
The programme takes a holistic view of the internet infrastructure together with its services and applications and covers the topics required to develop communication systems for the next generation. The programme also covers novel concepts and topics, the current trends on the internet such as cloud computing, software-defined networking, 5G mobile network technology, and the Internet-of-Things. Students will also learn about the fundamental design principles behind the internet, which has enabled explosive growth and has, in turn, stimulated the introduction of new business ideas and ventures....