Degree: Master of Science (two years) with a major in Mechanical Engineering
Teaching language: English
The Mechanical Engineering master's programme covers the entire product development cycle, from idea to the final product. With five specialisations and close industry collaborations, you will be qualified for work in any field of development, engineering or manufacturing.
Mechanical engineers are expected to be creative, have broad knowledge and work as members of multidisciplinary teams. With this programme, you will become a problem-solver with a holistic perspective, ready to take part in today’s product development to create tomorrow’s sustainable society.
The first semester consists of mandatory courses in mechanical engineering, such as fluid power systems, computational mechanics, and deformation and fracture of engineering materials. They are combined with courses in product development and project management.
In the second semester, you may choose among five specialisations:
Each specialisation has a major project course in the third semester, where you work with industry-related problems and apply knowledge obtained from the specialisation courses. This course prepares you for the master thesis project in the final semester. The thesis is usually written together with a fellow student in close collaboration with a company, either a small local business or a global industrial corporation like Siemens or Scania. The thesis project can also be performed as part of a research project at LiU.
Welcome to the Institute of Technology at Linköping University
Degree: Master of Science (two years) with a major in Biomedical Engineering
Teaching language: English
Biomedical Engineering Masters programme combines fundamental concepts and knowledge in engineering, biology, and medicine to develop innovative technologies, materials, processes, and systems, with the aim of improving healthcare.
You will expand your skills and knowledge in engineering, mathematics, physics, multidimensional signal generation and analysis, and you will combine medical informatics with biomedical modelling applied to human anatomy.
The intersection of natural science, medicine, and technology is a dynamic place. Driven by demands for equitable and efficient healthcare and ever-improving quality of life, technological development benefits humanity and helps create a sustainable future. With a history of pioneering interdisciplinary research and education, Linköping University provides premier opportunities for developing a fundamental and functional understanding of biomedical engineering. Based on solid mathematical and physical foundations, useful medical knowledge, and a vivid engineering spirit, we set out to develop technology that improves health and healthcare – and makes a difference.
The first year is mainly a broad compulsory segment, with courses in anatomy and physiology, medical information systems, and signal theory. The second year offers in-depth specialisation along three tracks:
Each track comprises approximately 25 compulsory ECTS credits and 15 elective credits. In the final semester you write a thesis within your chosen specialisation, at the department or in a hospital or the industry.
Learning outcomes are achieved through the thematic environment of student-centred learning, using teaching methods that include tutorial groups and home exams. After graduating, you will have the skills to formulate and solve engineering problems in the biomedical domain, implement and operate processes and systems, and evaluate engineering tools applied in medicine.
The master´s programme in Aeronautical Engineering at Linköping University offers a holistic view on aircraft design. An aircraft is a complex, integrated, closely connected system of various technologies and disciplines such as: aerodynamics, structure, propulsion, actuation systems and other on-board systems.
All these disciplines need to be optimised in order to achieve the functionality and efficiency required of an aircraft. The latter part of the programme involves a project in which these disciplines come together and challenge students to design, build and fly an aircraft, or a subscale version.
Linköping is the aviation capital of Sweden and one of few aviation cities in the world. Saab Aeronautics, the producer of the highly successful Gripen fighter aircraft, is a major actor in the region. Other related companies and military aviation establishments that reinforce Linköping’s aviation character are located in or near the city. The Aeronautical Engineering programme benefits from this, as some of the teachers have affiliations to the industry. Moreover, there is close research and education collaborations between the university and the industry.
The first year of the programme deals with the fundamentals of aeronautics, such as aircraft design, aerodynamics, engineering system design, product modelling, and aircraft systems and installation. Throughout the programme, special attention is given to a thorough progression with significant use of contemporary engineering design tools. A mix of elective and mandatory courses prepares you for your master’s thesis durign the final semester. There is a possibility to specialise within Aerodynamics, Aircraft System Design or Aircraft Structure.
The Master’s programme in Electronics Engineering focuses on the design of integrated circuits and System-on-Chip in advanced semiconductor technologies. This requires a broad spectrum of knowledge and skills across many fields within engineering and science.
The programme provides a competitive education in digital, analogue and radio-frequency (RF) integrated circuits (IC) and System-on-Chip (SoC) design, combined with in-depth knowledge in signal processing, application specific processors, embedded systems design, modern communications systems, and radio transceiver design.
Modern society depends on reliable and efficient electronics. Mobile phones, the Internet, computers and TVs are just a few examples that constantly improve in terms of functionality, performance and cost. In addition, a growing number of concepts and technologies significantly improve areas such as mobile and broadband communication, healthcare, automotive technology, robotics, energy systems management, entertainment, consumer electronics, public safety and security, industrial applications, and much more. This suggests that there will be vast industrial opportunities in the future, and a high demand for skilled engineers with the knowledge and skills required to lead the design of such complex integrated circuits and systems.
The programme is organised by several strong divisions at the Department of Electrical Engineering and the Department of Computer and Information Science. These divisions, which include more than 60 researchers and 10 internationally recognised professors, have excellent teaching experience, world-class research activities that cover nearly the entire field of integrated electronic design, state-of-the-art laboratories and design environments, and close research collaboration with many companies worldwide.
The programme starts with courses in digital communication, digital integrated circuits, digital system design, analogue integrated circuits, and an introduction to radio electronics, providing a solid base for the continuation of the studies.
Later on, a large selection of courses enables students to choose between two major tracks:
The programme offers several large design-project courses, giving excellent opportunities for students to improve their design skills by using the state-of-the-art circuit and system design environments and the CAD tools used in industry today. For instance, students who take the course VLSI Design will design real chips using standard CMOS technology that will be sent for fabrication, measured and evaluated in a follow-up course. Only a few universities in the world have the know-how and capability to provide such courses.
The Communication Systems master's programme offers a broad curriculum on communication technology focusing on both the fundamental principles of systems engineering and the practical design of digital and wireless communication systems.
We are living in an increasingly networked society. The number of mobile phone users is rising by 50 million per month, while video streaming and social networking are pushing data volume demands. New applications for the internet-of-things are set to revolutionise the coming decades by creating a new paradigm in which not only humans but also machines communicate with each other. The exponential growth in the use of communication devices requires skilled engineers to drive technological development and inspire new inventions.
The Communication Systems master’s programme has a solid theoretical base in communication systems engineering. Topics covered include communication theory, coding, modulation, signal processing, and the design and optimisation of communication systems and networks. This programme is highly competitive. Applicants must have advanced skills in mathematics and a strong sense of dedication.
The first year comprises mandatory courses in communication systems engineering, such as digital communication, wireless communication, information networks, and image and audio coding. The third semester offers elective courses in electrical and computer engineering, mathematics and physics. It also includes a compulsory project, during which students learn project management, apply their knowledge to build a communication system, and work in teams with other students. The final semester is devoted to your thesis, which may be carried out in collaboration with a tech company, such as Ericsson or Saab, or as an internal project at the university.
Most courses have traditional lectures and tutorials, and all courses include practical laboratory work. Linköping University is at the forefront of research into 5G, the next-generation of cellular network technology. Our seminal, award-winning research on the Massive MIMO multi-antenna technology is conducted in collaboration with Lund University, Ericsson Research, Nokia Bell Labs, and other prominent partners. You will thus get the opportunity to learn 5G-related topics from renowned experts.
For anyone interested in a career related to self-driving cars, robotics or artificial intelligence, EIT Digital Masters School offers a two year master programme in Autonomous Systems (AUS).
AUS is a combination of computer science and electronic engineering. During the programme, students will gain new skills in both areas. In computer science, relevant skills include Internet of Things (IoT), machine learning, artificial intelligence and robot vision. In electronic engineering, relevant fields are automation, control, embedded systems and communications.
Students learn the latest theoretical knowledge and know how to apply their skills in practical real-life problems. Typical application areas of autonomous systems include autonomous vehicles, intelligent robots, industrial IoT and autonomous software systems.
At the moment, the job market looks very promising. Automotive manufacturing is a major industry in Europe and the university partners are well linked with these companies. In addition, autonomous systems are relevant in service applications and in manufacturing, logistics, shipping, mining, and recycling industries. In addition, autonomous software systems are becoming widespread in application areas, such as media, finance, customer service, and healthcare.
The university partners have an outstanding portfolio of companies in which students are sent for a 6 months internship that concludes their master thesis.
The programme is a double degree programme, which means that you’ll study at two European universities (and countries). The programme has an integrated technical content (Technical major) and business content (Innovation & Entrepreneurship – I&E minor). The I&E minor is shared between all programmes. An integral part of the second year is a Masters thesis (30 ECTS).
The double-degree programme is implemented jointly by leading European universities. The students can select their favorite first (entry) and second (exit) year universities. Each university has a unique specialisation area, which allows students to select their own second year expert area.
All EIT Digital Master School programmes follow the same scheme:
To learn more about the structure of the programme, please click here.
To learn more about the I&E minor please click here.
Entry - 1st year (common courses)
Exit - 2nd year (specialisation)
EIT Digital Master School offers two-year, European Masters in computer science and information technology, with a focus on innovation and entrepreneurship. Students study two years in two leading European universities. They earn two Masters degrees from those universities together with a certificate awarded by the European Institute of Innovation and Technology (EIT). Students enjoy an array of benefits which includes European mobility, a three-day business challenge, a two-week Summer School, an internship and access to the EIT Digital community. Upon graduation, students are equipped with the tools to become digital innovators.
· European citizen: No tuition fees. Up to 750 Euros monthly allowance
· Non-European citizen: tuition fee waiver of up to 50% and 750 Euros monthly allowance
Application deadline to begin studying in September 2018:
· 15 April 2018 (Open to EU/EEA/CH citizens/ Non-EU citizens*.)
*Please note that this application period is not recommended for applicants who require a visa due to time constraints. If you require a visa to study in an EU country, we recommend you delay your application to November 2018 when the application portal opens again, to start in Autumn 2019.
How should you apply?
To apply, you need to register and submit your application on the EIT Digital Application Portal. You don’t need to do your application all at once. You can access the list of required documents for your application here.
Need more information?
Master School Office: [email protected], we will be happy to help.
Degree: Master of Science (two years) with a major in Transportation Systems Engineering
The Intelligent transport system master's programme focuses on the integration of IT and telecommunications into transport and logistics systems, with the aim of increasing efficiency, safety, mobility and customer satisfaction while reducing environmental impact.
Well-designed transport and logistics systems are fundamental to individual mobility, commerce, welfare and economic growth. With ever-increasing volumes of traffic and goods, future transport systems face a huge challenge: How to balance the need for speedy, efficient and sustainable transport with the negative impacts of congestion, pollution and fatalities? The answer lies in a tighter integration of telecommunications and information technology into vehicles and physical road infrastructure. This programme provides the engineering and managerial skills required to design, plan, analyse and manage transport and logistics systems.
Through a multi-disciplinary approach, you will acquire the skills to adopt changes in the industrial environment in a responsible and efficient manner. The programme provides the tools required to understand, develop and control future transport and logistics systems through the use of optimisation, simulation and geographical information systems. You will study traffic and supply-chain modelling, mobile and wireless telecommunications, road safety and project management.
For the second and third semester you may choose between the Traffic profile and the Logistics profile. The final semester is dedicated to your thesis, which is usually written in close collaboration with a company, city or government body.
You will need strong skills in mathematics and an analytical mind: programming experience is a distinct advantage. You will carry out group-based lab practicals and project work. Many courses are continuously assessed through hand-in assignments and reports. Oral and written communication is an integral part of the programme, to prepare students for international management positions.
You will be at the frontline of Swedish transportation research. Linköping University is the coordinating university of the Swedish National Postgraduate School of ITS (Intelligent Transport Systems). We are also a member of ITS-EduNet, the network for Training and Education on Intelligent Transport Systems.
This international Master’s programme gives insights into cutting edge resarch in robotics and artificial intelligence. The programme is centred around a "raise your robot" theme. You get access to a robot platform from day one, which you will give more and more advanced capabilities as the courses are progressing.
The programme is offered by the nationally and internationally renowned Centre for Applied Autonomous Sensor Systems (AASS) at Örebro University. As a student, you will be immersed in one of Sweden's largest academic research centres in robotics and intelligent systems. The outcomes of our ongoing international research projects feed into all of the courses. Vice versa, student projects and thesis works typically contribute to our research projects with industry partners.
The programme focuses on biological and artificial interfaces that are of utmost importance and interest in the field of biomedical science.
This is an excellent opportunity for you who has a bachelor’s degree in life sciences and would like to advance your skills in biomedical science. The programme offers theoretical as well as practical skills, beyond traditional teaching in biomedicine, biology and chemistry. The education combines cell and molecular biology with surface and colloid chemistry. It offers unique knowledge, useful in biotech applications such as: drug delivery systems, implants, bio-assays, medical nano-technology and food technology. Arranged in close collaboration with regional industry, it provides an up to date overview of research and development in the field of biomedical surface science.
The program creates a platform for understanding the involvement of surface science in biomedicine and biotechnology. You will get theoretical knowledge and practical skills in the areas of biomedical activities which require expertise beyond traditional disciplines of biomedicine, chemistry or biology.
The program is carried out in close collaboration with regional industry, and provides up to date overview on research and development work in the area of biomedical technology. Education is conducted by researchers and teachers who are participants of an industrially relevant research network called Profile “Biofilms – research center for biointerfaces”. Our experimental facilities combine chemistry, cell and molecular biology, and bioanalytical laboratories.
We use different pedagogical forms, with a strong focus on research questions in development of biomedical products. The collaboration with surrounding biomedical industry is conducted through CDIO, Conceive - Design - Implement - Operate projects.
Biomedical surface science refers to the knowledge and understanding of the theoretically and practically integration of surface chemistry in applied aspects of cell biology, immunology, molecular biology and nanotechnology.Biomedical surface science refers to specialised knowledge of surface chemistry in applied areas of cell biology, immunology, molecular biology, nano-biotechnology and colloid chemistry, as well as substantially knowledge on integration of these subject in biomedical surface science.
Drugs and biotechnology
Devices and diagnostics
Master's Degree (120 credits).
After the education on the programme is accomplished the requirements for the master degree in Biomedical Surface Science are fulfilled.
The degree certificate states the Swedish title Masterexamen i biomedicinsk ytvetenskap (120 hp)and the English title Degree of Master of Science (120 credits) with a major in Biomedical Surface Science.