Sweden is a highly desirable country for a Master in Engineering program. Sweden is home to prestigious universities with cutting-edge facilities, has high academic standards, and has an economy driven by science and technology. In addition, Sweden has one of the world’s highest standards of living, a safe environment, and a multicultural student population, making it an ideal location to take a Master in Engineering degree.
Master in Engineering programs are designed for students seeking a career that applies science, economics, mathematics, and social knowledge to design and construct structures, machines, and processes. In Sweden, there are a variety of fields to choose from for a Master in Engineering degree, such as materials engineering, nuclear engineering, environmental engineering, and industrial engineering, to name a few.
If a Master in Engineering program in Sweden sounds interesting to you, then take a look through the programs below and learn more about the opportunities that await you!
The programme will provide you with broad and deep mathematical knowledge about Mathematics and its applications – knowledge which is highly attractive on the labour market in the industrial and public sectors as well as in society in general. Tomorrow’s technology depends on mathematical methods and calculations and your education in Engineering Mathematics will give you the knowledge and skills you need to actively develop new technology, build a sustainable society and/or run your own successful business. [+]
The joint Master's programme in Turbomachinery Aeromechanical University Training (THRUST) is a cooperation between KTH, Duke University, Aristotle University of Thessaloniki and Université de Liège. The programme offers education of high [+]
The field of Engineering Mechanics includes all areas of the industrial design process that are based on advanced mechanical analysis of product behavior and functionality. The Master’s programme equips students with the knowledge and skills [+]
The programme includes five tracks: Theoretical Physics, Subatomic & Astrophysics, Optical Physics, Nano Physics, and Biomedical Physics; each with compulsory, conditionally elective and elective [+]
The field of computer simulations is of great importance for high-tech industry and scientific/engineering research, e.g. virtual processing, climate studies, fluid dynamics, advanced materials, etc. Often the field is referred to as the [+]
The Master's programme in Production Engineering and Management is designed to provide production knowledge and skills with a holistic perspective. [+]
Master in Production Engineering and Management The Master's programme in Production Engineering and Management is designed to provide production knowledge and skills with a holistic perspective. After graduating from the programme, students will have:Basic understanding of various dimensions and functions of the broad field of production.Analytical skills needed to tackle the ever-changing problems and situations of modern competitive production.Conceptual and reasoning skills with appropriate decision support methods and tools used in production management.Communication and presentation skills necessary for leadership positions. Understanding of how environmental and cultural differences effect the production process.Understanding of the need and requirements for sustainable and energy efficient production processes.Programme outlineThis programme will provide a strong foundation on which a professional engineering career can be built, as both engineering and management aspects of production and their integration are covered. The engineering side includes operation and integration of manufacturing equipment, automation technology, production development tools and methods and software used by engineers. The managerial side covers systematic decision-making, operations strategy, planning, control and management of resources during development and operations of manufacturing systems. The programme has four focus areas: Pproduction Development, Pproduction Management, Iindustrial IT Systems, and Iindustrial Joining. There is a set of mandatory courses for all students of the programme, and courses pertaining to each focus area. Moreover, students have the possibility to combine further elective courses on an individual basis.Degree projectTopics for degree projects are selected within the four focus areas. The projects can be carried out in cooperation with the department’s research groups, with companies or with other universities, in Sweden or abroad.Career prospectsAs production is global, graduates from our programme will be able to find positions as technical specialists, production developers, production engineers, production managers or consultants in various production fields, all over the world.... [-]
The Master’s programme in Engineering Design educates engineers by promoting excellent technical and organisational skills in product development, engineering and design of complex and innovative products. Students of the programme will choose one of three [+]
Master in Engineering DesignThe Master’s programme in Engineering Design educates engineers by promoting excellent technical and organisational skills in product development, engineering and design of complex and innovative products. Students of the programme will choose one of three specialisations: Machine Design, Mechatronics or Combustion Engines.Programme outlineThe programme is structured to enhance technical skills, as well as to give an introduction to various aspects of engineering design. The specialisations include a set of advanced courses which are compulsory and constitute two-thirds of the total course work.The first semester consists of basic courses in engineering design, modelling, programming (Mechatronics track), robustification (Machine Design track) and combustion technology (Combustion Engineering track). The second semester consists of advanced courses within your specialisation, and voluntary courses. During the third semester a large industrial project is the basis for an advanced course within your selected field. The programme concludes with a thesis project that can be performed in either an industrial setting or in an academic environment. Each student is encouraged to actively search for a suitable thesis project in industry, and KTH will provide information on helpful points of contact.Degree projectThe thesis project is supervised by an experienced researcher and can be performed in an industrial setting or in an academic environment. Exchange students are recommended to find a thesis project in their country of permanent residence or where they intend to begin a professional career.Career prospectsEngineering Design professionals educated at KTH work in a wide range of fields: as technology specialists at large industrial companies, product developers of consumer products, or with research in academia. Some key industries and sectors involve vehicles (road, rail, air, off-road), industrial automation (robotics, processes, electronics, tools), and medical engineering (aids for the disabled, life-support systems, simulators).The Engineering Design programme provides the student with the technical competence and abilities to identify complex engineering problems, and to solve these using modern methods and tools.... [-]
The main objective of the Master’s programme in Aerospace Engineering is to educate skilled engineers for the European aerospace sector. [+]
Master in Aerospace Engineering The main objective of the Master’s programme in Aerospace Engineering is to educate skilled engineers for the European aerospace sector. Gra degree holder,graduates of the programme will possess solid theoretical skills in aerospace modelling, analysis and design, as well as the ability to approach and solve complex engineering tasks, and the experience of working within a team. They will also be adept at communicating effectively and working within an international environment – skills that translate tooffer potential global career opportunities.Programme outlineThe first semester consists of a set of courses to enhance basic skills, as well as give an introduction to various aspects of aerospace engineering. The basic courses are compulsory and constitute almost one third of the course work. The student then chooses one ofout our four tracks for further specialisation: sLightweight Structures, A Spalightweight structures,lightweight S Each track has severala few compulsory courses, but most are optional out of a set of recommended courses. There are many possibilities to combine courses between the tracks. The student then chooses one ofout our four tracks for further specialisation – in the direction of Aeronautics, Space, Systems or Lightweight Structures. Each track has a few compulsory courses, but most are optional out of a set of recommended courses. There are many possibilities to combine courses between the tracks. Degree ProjectThe fourth semester is spent on a five month (30 ECTS) thesis project, where the student has the opportunity to investigate a problem in- depth. The thesis project is performed either in industry or at a university department, in Sweden or abroad. The results are presented in a Mmaster's thesis ands as well as in a seminar.Career prospectsThe employment market for European aerospace engineers is strong and will remain so for the foreseeable future. Airbus is the main European aerospace company in the civil sector, however a large part of the work is performed at various subcontractors all over Europe and also worldwide.Government spending in tThe space sector is dynamic and also increasingevolving, with major projects such as the Galileo navigation satellite project and challenging scientific missions. The European space industry employs about 40, 000 people.. Astrium is Europe’s largest company in space with 18 000 employees spread over many countries.A Mmaster’s degree in the aerospace fieldarea from KTH is a quality mark of quality and openss up a wide range of careerjob opportunities in industry and research, as well as areas also far beyond the aeronautical and space sectors.... [-]
Embedded Electronics Engineering offers a wide perspective, where digital and analogue design are regarded as one unit in which different domains interact. [+]
Embedded Electronics Engineering offers a wide perspective, where digital and analogue design is regarded as one unit in which different domains interact. The focus is on CMOS, where billions of devices are used to build a system on a single silicon die. The programme is demanding and unique in its offering, a perfect preparation for your future career. It spans areas from radio frequency (RF) circuits through to data conversion and digital circuits. Another distinguishing programme feature is that circuit design is linked to the area of wireless communication, where RF front-ends are co-designed with digital baseband, which provides the opportunity to build complete transceivers. Due to the extensive local industry, the programme is closely linked with a variety of private companies, which ensures that our courses maintain high market relevance. In some cases our students’ degree projects result in patent registrations and the opportunity to publish their work at international conferences. ... [-]
Fire Safety Engineering is a multidisciplinary field that requires a deep understanding of building design and construction, the thermo-chemical processes associated to fire growth [+]
The International Master of Science in Fire Safety Engineering (IMFSE) is a two-year educational programme in the Erasmus + framework. This Master’s programme is organised jointly by: Ghent University, Belgium (coordinator) Lund University, Sweden The University of Edinburgh, UK
These three leading European research universities with complementary expertise in the field of Fire Safety Engineering (FSE) join together with the main objective of creating an educational programme that defines the required knowledge for a professional fire safety engineer, capable of developing a Performance Based Design (PBD). The three IMFSE universities are leading European institutions in the field of fire safety, providing both educational programmes and high-level research. Ghent aims at general FSE, Lund is recognised in enclosure fire dynamics, CFD modelling, human behaviour during fires and evacuation and towards methods for risk assessment, and Edinburgh is the developer of the first curriculum in structural fire safety engineering.... [-]
This masters program focuses on mobility enabling computer and communication technologies, applications for handheld and mobile devices as well as new services enabled by mobile systems and networks. [+]
The master program in Computer Science and Engineering with specialization in Mobile Systems is for students who have completed a Bachelors degree in Computer Science or related disciplines. The program focuses on mobility enabling computer and communication technologies, applications for handheld and mobile devices as well as new services enabled by mobile systems and networks.This program is designed for students who wish to enhance and advance their knowledge in the areas of mobile computing systems, software engineering for applications and systems using mobile networks and devices, computer communications, distributed and web-based applications and services. The program has also strong focus on developing research skills, in particular, ability to identify and define the problem, propose a theoretical solution and support this proposal with implementation and validation.Coursework primarily consists of advanced courses related to research areas within the Department of Computer Science and Electrical engineering. The first year is based on course work and the second year is dominated by a development project as well as a larger thesis work that is often carried out in cooperation with hi-tech ICT industry which is strongly present in and around LTU. Such R&D companies as Ericsson Research, and others, including many SMEs, may offer industrial placement program and internships to outstanding students. Theses are usually supervised by academic staff members who are internationally recognized researchers and experts in the field. It is also possible to carry out the work at an external research lab.The language of instruction in the Mobile Systems Masters program is English.Labour marketThis program will give you broad technical competence together with expert knowledge within your field of interest. You may work as a key developer for a small innovation company, as well as employed by the R&D departments in larger companies, with a possible career path both as a specialist and in management. Your knowledge may lead to positions in as diverse fields as technical development, science and engineering research, and information & communication technology consulting. For many students, a subsequent career in academic research and education is an attractive alternative.... [-]
The current globalisation offers many opportunities for work in international companies and abroad. It also means that competition is stiffer and that it is importan [+]
Master in Manufacturing Engineering
The current globalization offers many opportunities for work in international companies and abroad. It also means that competition is stiffer and that it is important to be adequately educated. Manufacturing engineering is one of the strongest areas of University West and in this one-year master programme, you have the possibility to improve your CV, for a career in the manufacturing industry, global corporations, or for an academic career. The education offers both specialized technological knowledge as well as breadth within manucfacturing engineering, which is a necessety for leading positions in the industry.
This program is designed to provide the foundation for understanding the key issues associated with protecting information assets, and to emphasize the business considerations and consequences of effective information security management. [+]
Master Program in Information Security, 120.0 Credits
During the first year of your studies important concepts within the area will be defined, for example information security, safety, critical systems, information classification, and risk analysis. Other important issues are techniques to transfer information between users in business and how transferring can be made in a secure way. Internet Secutity is a course during the first year where you learn more about this. You also gain knowledge of professions and roles from a security perspective and important standards used. The first year is completed by project work in a company or a public authority. The function of cooperation and collaboration and the system for decision making are important when working with security. Therefore, during the second year you learn about information security management. Research within the area of information security is one other issue during the second year. Parallel to this, you can choose between various courses focused on technologies or management. The thesis is also written during the last year.... [-]