Find Master's Degrees in Computer Engineering in Sweden
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.
A Master’s degree in Computer Engineering focuses in giving students the ability to deploy powerful and efficient systems in a variety of fields. These include data acquisition, automation manufacturing and communications. It makes and emphasis on the practical applications of both software and hardware design.
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.
Embedded sensors can be found in home and consumer electronics, medical electronics, in vehicles, within industry, army, and aviation, and even in space. The Master’s pro
Embedded sensors can be found in home and consumer electronics, medical electronics, in vehicles, within industry, army, and aviation, and even in space. The Master’s program teaches you how to design embedded sensor systems and how to connect them to different products, programs and apps and their features. The Master’s Program in Embedded Sensor Systems was developed in cooperation with the industry and researchers and therefore, it responds to current and future market needs.
This program will provide you with a broad knowledge of the different technologies that form the construction basis of embedded sensor systems. You will also gain an understanding of the methods and tools you need for analysis and construction, both on an overall level and in-depth. In addition, you will learn to put your theoretical knowledge to practical use by means of close cooperation with the industry, in which you work with some of the companies’ real research projects....
Everything wants to be connected. Enter the program and shape the new boundaries in computing. The studies combine theoretical and practical components with a view to the
Everything wants to be connected. Enter the program and shape the new boundaries in computing. The studies combine theoretical and practical components with a view to the hands-on experience demanded in the computer industry, a significant portion of the program is devoted to practical software and hardware design experiments and prototyping. Theoretical knowledge and engineering skills are acquired in Computer Systems and Communication Networks, and Distributed Systems and Machine Learning.
The program provides students with a broad foundation in information technology (IT), and an in-depth understanding of computer data communication and modern networking. It includes courses in distributed systems and algorithms, wireless networking, software development, data mining and visualization. The computer networks concentration courses provide students with a comprehensive understanding of network design and implementation, network performance analysis and management, network security, and the latest networking technology. The thesis project can be performed at a company, at a research facility or at the university....
Embedded systems are the most common form of computer system, utilizing around 98 percent of all manufactured processors for their applications – from sewing machines and
Embedded systems are the most common form of computer system, utilizing around 98 percent of all manufactured processors for their applications – from sewing machines and cars to satellites and power plants. The common denominator for these systems is high-level demands on functionality and reliability.
Embedded Systems at KTH
The purpose of this master’s programme is to provide a broad education in embedded systems with the opportunity to specialize in areas that cover theoretical as well as practical aspects of embedded systems development. Special emphasis is placed on engineering skills, integration of software and hardware, system design, integration, verification and the management of the design process....
Smart devices (mobile phones, PDAs, tablet computers), smart products (car, navigation) and smart environments (ambient intelligence) are enabling new services that requi
Why study Human-Computer Interaction and Design at EIT Digital Master School?
Smart devices (mobile phones, PDAs, tablet computers), smart products (car, navigation) and smart environments (ambient intelligence) are enabling new services that require innovative interfaces. Human-Computer Interaction and Design (HCID) focuses on the study, design, development and evaluation of novel user interfaces, interactive systems and services.
HCID is an interdisciplinary programme where our User-Centred Design approach places the users at the centre of the design process. By combining human aspects (both at a cognitive, aesthetic and sensory-motor levels) to technological and business aspects, we create new products and services with great usability and user experience, and a solid customer demand, which often translates into commercial success. Students learn how to design and define how people interact and live with the modern ever-changing technical world....
Embedded systems are everywhere! More than 98% of the world’s processors are located in embedded systems. Embedded systems focuses on enabling technologies and design met
Top Master's Degrees in Computer Engineering in Sweden. Why study Embedded Systems at EIT Digital Master School?
Embedded Systems (ES) gives you a holistic and multidisciplinary view and skillset on embedded systems, their underlying technologies, their development, and their integration.
Graduates become world-class specialists and innovators in the field of embedded systems, capable of developing smart embedded solutions for new challenges in domains of Cyber-Physical Systems (CPS) and the Internet-of-Things (IoT). They are also capable of taking on leading management roles in embedded systems and more general ICT companies.
The curriculum combines the technical major in Embedded Systems (Technical major 75%) with a minor in Innovation & Entrepreneurship (I&E) (business minor 25%). You will learn how to bring innovation to the market and how to develop a successful business model. These additional entrepreneurial skills will give you your ticket to a successful career....