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!
Get the skills in and become prepared for employment within management or qualified research functions in textile-related engineering, for example, material and product design and development, manufacturing, functional and interactive textile structures. [+]
This education is the only one in its kind in Scandinavia, and one of few in Europe. During the education, you develop your knowledge, skills, and assessment skills in textile technology. The Swedish School of Textiles is part of the University of Borås and all programmes within textile are located here, www.hb.se/en/The-Swedish-School-of-Textiles/
Here, the starting point is textile fibres: What do they consist of, what significance do they have, and what could be done with them. This education links together and specialises in different elements that develop both theoretical and practical knowledge. One of these recurring elements throughout the education is the sustainable development perspective.... [-]
The AMASE Masters course has been successfully implemented over the last five years with funding from the Erasmus Mundus Programme. [+]
The AMASE Masters course has been successfully implemented over the last five years with funding from the Erasmus Mundus Programme. Scholarships are available for students from all over the world and are between 500 EUR and 1000 EUR per month. The course has demonstrated high quality throughout. In order to ensure the programme's continuity - the "non-selected status" may prove temporary and only last until the next call - the consortium delivering this Joint Masters course has been awarded by the European Commission/EACEA an Erasmus Mundus Brand Name (EMBN) by which it commits itself to maintain the requirements and level of excellence expected from an Erasmus Mundus Masters Course.... [-]
You get an understanding of the key issues involved in modern production and logistics systems. You’ll be provided with the analytical and computing tools, their use and scope, enabling you to [+]
Master of Product and Process Development
You get an understanding of the key issues involved in modern production and logistics systems. You’ll be provided with the analytical and computing tools, their use and scope, enabling you to manage the development of the systems successfully and competitively.
In this programme, you will learn to select, initiate, plan and schedule projects using techniques such as CPM and PERT. You will acquire skills in modern production and logistics systems and will be able to analyse, evaluate and optimise the solutions.
The programme includes projects together with industry and society. This programme offers a two-year curriculum involvinga total of 120 credits. A Master’s degree in Production and Logistics Management will also provide you with an advanced base in planning and optimisation of production and logistics, including the use of simulation software.... [-]
The proliferation and growing influence of software in business and our daily lives have been phenomenal. Software engineering deals with the design and development of high-quality software systems [+]
Master of Software Engineering - 1 year
The proliferation and growing influence of software in business and our daily lives have been phenomenal. Software engineering deals with the design and development of high-quality software systems – and hence is an increasingly important area in computer science. In this programme, you will gain advanced knowledge and practical skills in software engineering.
During this programme, you will acquire good theoretical knowledge and excellent skills in engineering software-intensive systems, which encompass the ability to cope with the complexity of understanding as well as developing them. You will acquire knowledge of principles for the analysis, design, and implementation of large and complex software systems. Students successfully completing this programme will be able to demonstrate the understanding of the methodologies and techniques of software management and to apply them to a range of development scenarios. You will be able to transcend global diversity and work in international teams. The industrial track will involve mentoring and thesis projects related to partner industries such as ABB, Ericsson or Volvo.... [-]
The aim of the program is to have the student prepare for participation in advanced product development or research within mechanical engineering. The aim is that the student after completed degree should master a coordinated working method at analysis for... [+]
The aim of the program is to have the student prepare for participation in advanced product development or research within mechanical engineering. The aim is that the student after completed degree should master a coordinated working method at analysis for decision support in the product development process, the extensive modules of virtual and physical modelling, simulation and experimental investigation and optimisation.
A coordinated working method of analysis for decision support.
The student is expected to inform herself/himself about current field-relevant research and considerably increase her/his ability to communicate her/his own contributions with scientific facts and relations both orally and in writing by means of modern tools for visualisation and documentation.... [-]
As competition between companies is getting tougher as the number of products on the market increases, many are realising the importance of product development and material knowledge as a competitive means. This programme covers the entire product development process, from conceptual engineering design to materials and manufacturing processes. [+]
The steady increase in the use of computer support makes possible new methods, which are parallel to the entire product development process. With the help of advanced computer tools in design and construction, real and virtual prototypes can be produced much faster, and the time needed for development can be shortened. In addition, a product can be studied and tested at an early stage of product development for its design, usability, durability, safety and producibility. Important aspects of work with the development of components and products include the analysis of function and performance, the choice of materials and the methods of production. This programme gives an understanding of the theory behind and the practical use of the computer-based tools needed for these tasks.... [-]
The manufacturing industry now faces globalization challenges and this is the starting point of this Master's programme. The aim is to provide knowledge and competence that prepare the students for leading positions within the manufacturing industry. [+]
Today, the manufacturing industry is an international industry. Product development and production may be carried out at different geographic locations, which require communication and coordination of the activities. The competitiveness of manufacturing companies relies to a high degree on their abilities to benefit from the increased globalization.Preparing for leadership
This Master's program focuses on the role that production plays within manufacturing companies. Central themes include how production systems are developed, how the design of the products and the supply chain interrelate with the production system design, and how production systems are operated and managed. The program begins with a number of courses that provides the students with a common basis for these central themes. It ends with a final thesis work, at which the students applies the knowledge and skills gained during the program.... [-]
This programme contains both theory and applications and prepares you for advanced engineering work in industry or for graduate studies. [+]
This programme contains both theory and applications and prepares you for advanced engineering work in industry or for graduate studies.
Wave propagation and signal processing are important fields in the technical society of today. There are many technical and industrial applications that require knowledge of both these subjects, notably wireless communication and antenna and microwave technology.
During the first year, you will study the mathematical and statistical methods that are the foundations of advanced level telecommunications theory. You will also meet applications in the form of radio systems and microwave and antenna technology.
In the second year, you can specialize theoretically or study adjacent subjects such as physics or computer science. Some courses are given every other year and can thus be studied during year 1 or 2. The thesis work is a process where you transform your knowledge into scientific writing. In this, you will benefit from the elements of research methodology that are contained in the programme.... [-]
This MSc programme is built around our research strength in solid state chemistry and we are looking for students interested in materials synthesis strategies or in developing skills in advanced characterization techniques such as electron microscopy or nuclear magnetic resonance (NMR). [+]
Materials research is a dynamic field and with rapidly developing technology, the demand of refined and improved materials is increasing. This MSc programme is built around our research strength in solid state chemistry and we are looking for students interested in materials synthesis strategies or in developing skills in advanced characterization techniques such as electron microscopy or nuclear magnetic resonance (NMR).Education closely connected to world leading research
This programme is built on our research strength in solid state chemistry and we introduce students to versatile materials synthesis strategies. The design of nano-structured materials from new combinations of molecular building blocks, templating molecules, nano-particles and functional molecules is a running theme in several courses. We focus on providing our students with an advanced understanding of the structure- and property relations at all length-scales. All teachers at this programme are active researchers at the department and we are keen to have a close relation between students and researchers. This is why we focus the studies on lectures, lab work and projects connected to recent scientific advancements in the field.... [-]
The programme in Software and Service Architectures is an enhanced version of the previous programme on Service Design and Engineering and aims to educate the next generation of service designers and software architects capable of designing and engineering novel software systems to: (i) Drive digitalization of businesses, (ii) Create new businesses based on software intensive services, (iii) Be responsible for the elicitation and definition of what software products and services IT companies should create in order to be successful; (iv) Be responsible for the processes and methods for the effective development of modern software systems. [+]
Formerly known as Service, Design and Engineering SDE)Why study the EIT Digital Software and Service Architectures programme?
The EIT Digital SSA programme offers:Innovative and well-grounded education for the next generation of service designers and software architects. Studies at two of Europe´s foremost technical universities leading to a double degree. A good integration with tailored courses in Innovation and Entrepreneurship. A thesis work connected to interesting industrial challenges. Access to the competence of eight EIT Digital innovation action lines (link) not least through a summer school between the two years. Access to the co-location centres and innovation ecosystems of the nine EIT Digital nodes. What is the programme all about? ... [-]
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. [+]
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 program, 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 manufacturing engineering, which is a necessity for leading positions in the industry.
This master program is suitable for Mechanical engineering- or Industrial engineering and management- backgrounds. It gives an in-depth knowledge of manufacturing engineering, with strong industrial links. Regardless of whether you come from a background in mechanical engineering, or industrial engineering and management, if you fulfill the entry requirements, this program is suitable. Students of this masters program have access to one of the largest and most modern manufacturing labs in Sweden, Production Technology Center (PTC) in Trollhättan, featuring industrial robots and University West simulation laboratory.... [-]
CS&E is widely used both in scientific research and advanced industrial development. The efficiency in this kind of work is however greatly boosted by a solid education. The Master's Program in CS&E gives both a basic knowledge of the field and the specialization needed to successfully complete projects within research and development. [+]
Master's Program in Computational Science and Engineering
Computational Science & Engineering (CS&E) is a field of knowledge which aims at the development of methods that rely on computers and mathematics to model, simulate, and visualize various kinds of systems. CS&E combines several different disciplines such as computer science including numerical analysis, applied mathematics, physics, and technology. The applications are literally found everywhere. They often deal with complicated and/or complex systems and often require the management and analysis of large datasets. Applications include analysis of pictures, optimization of industrial processes, web-based search for information, risk analysis, the mechanism behind aurora borealis, pricing of financial derivates, computer games, and special effects in movies.... [-]
The master's programme in Engineering Physics prepares students for advanced industrial research and development, and further doctoral studies in physics and related subjects. Solving complex, sometimes interdisciplinary problems, is a central part of the education, requiring a profound knowledge and understanding of physics, as well as experience with analytical and computational tools. [+]
The master's programme in Engineering Physics prepares students for advanced industrial research and development, and further doctoral studies in physics and related subjects. Solving complex, sometimes interdisciplinary problems, is a central part of the education, requiring a profound knowledge and understanding of physics, as well as experience with analytical and computational tools.Engineering Physics at KTH
The master’s programme in Engineering Physics is supported by a faculty with about 50 professors and associate professors working actively in a large number of fields of engineering physics ranging from experimental biophysics and nanophysics to theoretical particle physics. Their activities touch upon a large number of fields within modern physics.... [-]
A functional and well-developed transport system is a prerequisite for a sustainable and prosperous society. The creation and maintenance of such a system demand knowledge of transport and geoinformation technologies, as well as an understanding of how the new technologies and policies are adopted, how they interact and how they affect our daily activities. [+]
A functional and well-developed transport system is a prerequisite for a sustainable and prosperous society. The creation and maintenance of such a system demand knowledge of transport and geoinformation technologies, as well as an understanding of how the new technologies and policies are adopted, how they interact and how they affect our daily activities.Transport and Geoinformation Technology at KTH
The master’s programme combines two closely related aspects of the built environment: transport systems and geoinformation technologies. The programme enables students to either specialise in one of these main subjects or develop their own interdisciplinary study plan, making use of each student’s unique background and interests. The recommended courses form a foundation for both subject areas, and students can choose a subject area by selecting the most appropriate sequence of the elective courses. Most courses combine interactive lectures with laboratory work. Many also include an in-depth term project. The courses make use of modern data collection instruments and quantitative modelling and processing software.... [-]
The two-year master’s programme in Electromagnetics, Fusion and Space Engineering incorporates a strong foundation in electrical engineering with an understanding of electromagnetic fields and how they interact with matter. [+]
The two-year master’s programme in Electromagnetics, Fusion and Space Engineering incorporates a strong foundation in electrical engineering with an understanding of electromagnetic fields and how they interact with matter.Electromagnetics, Fusion, and Space Engineering at KTH
Electromagnetic fields are the basis of telecommunications. They are employed, for example, to transmit high-speed data through optic fibers or mobile wireless systems. Additionally, electromagnetic fields are transmitted from objects in the universe, such as stars, and they provide key information to help us understand the universe. Furthermore, a fundamental understanding of plasma is needed for controlling and generating fusion energy, the same source that powers the Sun, and which promises to power the Earth in the near future.... [-]