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What will I learn?

With a growing need for improvement in the quality of life, and global average life expectancy rapidly rising, there is an increasing demand for efficient health care systems. Combining the design and problem-solving skills of engineering with medical and biological science, biomedical engineering improves health care delivery and medical practice by closing the gap between engineering and medicine. Together with advancements within IT, a new world of possibilities in how health care can be improved and delivered is evolving.

Programme aim

The overall aim of the programme is to provide an internationally competitive education, and to prepare you for a professional career, by providing in-depth knowledge in biomedical engineering. The programme prepares you for using engineering skills to improve health care delivery and medical practice. Even if the focus is on biomedical engineering, you will also acquire a good platform for working in related engineering disciplines.

The future of health care will simply require technical expertise. Examples of research areas and applications where biomedical engineering is needed are for example stroke detection and brain monitoring in neuro intensive care using microwave technology. Another example is microwave tomography for 3D breast tumor detection and visualization and microwave hypothermia for treating head and neck cancer. Furthermore, clothing incorporated textile-based sensors are used to record electrical activity from the heart, brain, or muscles, for monitoring in homecare and other distance settings. An area also in need of biomedical engineers is Health Informatics, where health care practice is supported by electronic processes and communication.

Programme description

The compulsory part of the programme provides a common platform within biomedical engineering. Through internationally recognized researchers, projects, guest lectures and a tight collaboration with industry, you will be part of a highly prominent research environment. For you to gain the required proficiency and depth in the area for a Master's degree, a number of elective courses are offered.

Specialization tracks

Depending on how you select and combine your courses, you can pursue a specialization of your interest and tailor your education towards a certain application area. To guide you through the selection of courses, the programme offers six suggested specialization tracks within: Image, eHealth, Signals and control, Automotive, Biomaterial, and Biotechnical Physics.

Career opportunities

Biomedical engineers can be employed by manufacturers of medical equipment, health care providers, biomedical engineering divisions at hospitals, research departments and laboratories, consultant companies, and other industrial sectors, for consumer products where biomedical aspects are of importance. Examples of possible employers are: Dentsply, Elekta, Getinge, Mölnlycke Health Care, Surgical Science, Nobel Biocare, Integrum, St. Jude Medical, Cochlear, Ortivus, Oticon Medical, Micropos, Monivent, Medfield, Qbtech, Volvo, Autoliv, Osstell, Oticon, Ray Search, and RTI Group.

As a student, you will gain general engineering skills at a level that is competitive within virtually any branch of industry. In addition, the programme also qualifies you for postgraduate studies. If you are interested in a future within research and development, you have the possibility of completing an extended Master’s thesis project of 60 ECTS credits.

Which department am I in?

Department of Electrical Engineering

Study options

Full Time (2 Years)

Tuition fees
SEK140,000.00 (10,92,811) per year
EU/EEA Citizens are not required to pay fees.
Start date

Expected August 2022


Chalmers University of Technology

Johanneberg Campus,

Chalmersplatsen 4,


SE-412 96, Sweden

Entry requirements

For students from United States

To fulfill the general entry requirement for the second cycle (master’s level), the prospective student must either hold a degree of Bachelor or Degree of Bachelor of Science in Engineering (minimum 3 years/ 180 hp) in Science, Engineering, Technology or Architecture from an internationally recognized university, according to the official guidelines by the Swedish Council for Higher Education published at universityadmissions.se. Programme-specific requirements include a bachelor’s degree (or the equivalent) with a major in (one or several alternatives will be listed) and prerequisites (one or several courses selected as necessary for the specific programme) and for three particular programmes a portfolio is required. English language requirement: IELTS (academic training): 6.5 (with no part of the test below 5.5); TOEFL (Internet based): 90 (with a minimum of 22 on the written part); TOEFL (paper based): 575 (with a minimum of 4.5 on the written part); Pearson PTE Academic - Score of 62 (writing 61).

For international students

Bachelor's degree with a major in: Electrical Engineering, Bioengineering, Engineering Physics, Biomedical Engineering, Computer Engineering, Engineering Mathematics or Automation and Mechatronics Engineering.

Preferable course experience: Programming in Matlab.

Accepted tests and minimum results required: IELTS Academic: an overall mark of 6.5 and no section below 5.5; TOEFL Paper-based: Score of 4.5 (scale 1-6) in written test, total score of 575, TOEFL Internet-based: Score of 20 (scale 0-30) in written test, total score of 90; Pearson PTE Academic: Score of 62 (writing 61); C1 Advanced (CAE), Cambridge English: Advanced (Certificate in Advanced English), or Cambridge ESOL Level 2 Certificate in ESOL International, Level C1.

*There may be different IELTS requirements depending on your chosen course.


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