BSc in Business Information Technology
The BSc in Business Information Technology (BIT) at the University of Twente is designe...
MSc in Biomedical Engineering - Physiological Signals & Systems
Drienerlolaan
INTAKE: Feb & Sept
Program Overview
The MSc in Biomedical Engineering - Physiological Signals & Systems at the University of Twente offers an advanced education in understanding, analyzing, and designing systems for the acquisition, processing, and interpretation of physiological signals. This interdisciplinary program combines knowledge from engineering, biology, and healthcare, providing students with the skills to develop innovative technologies that monitor and enhance human health. The program is focused on both theoretical foundations and practical applications in the biomedical field, with an emphasis on advanced measurement systems, signal processing techniques, and physiological system modeling. Students are prepared to contribute to advancements in healthcare technology, particularly in diagnostics, rehabilitation, and medical monitoring.
Curriculum: The MSc in Biomedical Engineering - Physiological Signals & Systems offers a comprehensive curriculum that covers various aspects of biomedical engineering with a focus on physiological signals and systems. Core courses cover topics such as biomedical signal processing, sensor technologies, human physiology, systems modeling, and bioinstrumentation. Additionally, students will learn advanced techniques for analyzing physiological signals like ECG, EEG, and EMG, along with the application of these signals in monitoring and diagnostics. The curriculum is designed to integrate theoretical knowledge with hands-on experience, allowing students to work on real-world projects involving the development of advanced medical devices. In the final phase, students conduct a master's thesis, often in collaboration with industry partners, to apply their learning to practical challenges in the field.
Research Focus: The research focus in the MSc in Biomedical Engineering - Physiological Signals & Systems is centered on the development of cutting-edge technologies for acquiring, analyzing, and interpreting physiological signals. Students engage in research that explores innovative signal processing techniques, new sensor technologies, and the integration of these technologies into wearable devices, medical equipment, and monitoring systems. Research topics may include the analysis of cardiac, neural, and muscular signals, the development of non-invasive monitoring systems, and the use of artificial intelligence and machine learning to improve signal interpretation. The program encourages students to explore interdisciplinary research that addresses real-world healthcare challenges and advances the field of medical diagnostics and monitoring.
Industry Engagement: The MSc in Biomedical Engineering - Physiological Signals & Systems fosters strong ties with the healthcare and biomedical technology industries. Students have the opportunity to engage with leading companies through internships, collaborative research projects, and industry-driven challenges. This industry engagement provides students with valuable practical experience in designing and testing physiological measurement systems and biomedical devices. The University of Twente's partnerships with hospitals, medical device companies, and research institutions ensure that students gain exposure to the latest advancements in medical technologies, regulatory standards, and quality assurance processes. Through these industry connections, students are well-prepared to transition from academic learning to professional practice in the biomedical engineering field.
Global Perspective: The MSc in Biomedical Engineering - Physiological Signals & Systems at the University of Twente provides students with a global perspective on healthcare technologies and the challenges of medical diagnostics. The program attracts international students and faculty, creating a diverse learning environment. The curriculum and research projects address global health challenges, such as the need for accessible medical diagnostics, personalized healthcare, and remote monitoring solutions. By studying the global application of biomedical technologies, students gain an understanding of how to design and implement systems that meet the needs of different healthcare systems and populations. Graduates are equipped to work in multinational organizations or healthcare providers with a global presence, making a significant impact on worldwide health innovations.
Location
Drienerlolaan
Score
IELTS 6.5
Tuition Fee
€ 18900
Postgraduate Entry Requirements
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 75% or above in their bachelor's degree.
English Language Proficiency:
- IELTS: Overall band score of 6.5 or 7.0 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 90 or higher.
Standardized Test Requirements
- GMAT (Graduate Management Admission Test): GMAT score of 600 is often required.
The University of Twente (UT) offers various scholarship opportunities for international students to help finance their education and living expenses in the Netherlands. These scholarships are designed to attract talented students from around the world and provide them with financial support to pursue their undergraduate or postgraduate studies at the university.
University of Twente Scholarships (UTS): The University of Twente Scholarships (UTS) are highly competitive merit-based scholarships available to students from non-EU/EEA countries who are applying for a Master’s program at the university. These scholarships are intended to cover part of the tuition fees and living expenses for the duration of the program. The amount of the scholarship varies, and it can range from €3,000 to €25,000 per year, depending on the student’s program and the scholarship type. To be eligible, students must have an excellent academic record and meet the admission requirements for their chosen program.
Holland Scholarship: The Holland Scholarship is a national scholarship program funded by the Dutch Ministry of Education, Culture, and Science in collaboration with Dutch research universities, including the University of Twente. This scholarship is available to international students from outside the European Economic Area (EEA) who are applying for a Master’s program at UT. The Holland Scholarship provides a one-time award of €5,000 to help with tuition fees or living costs. The scholarship is awarded for the first year of study, and students can apply for it once they have been admitted to a Master's program at the university.
Orange Tulip Scholarship (OTS): The Orange Tulip Scholarship (OTS) is a Dutch government-sponsored program aimed at providing scholarships to international students from specific countries, including China, India, Indonesia, Mexico, Russia, South Korea, and Vietnam, among others. UT participates in the OTS program, and selected students can receive a scholarship that covers part of the tuition fees for their Master’s degree. The OTS scholarship is offered in collaboration with the Dutch embassies and institutions in various countries.
Kipaji Scholarship: The Kipaji Scholarship is a special award given by the University of Twente to outstanding international students with excellent academic achievements. This scholarship is typically available for students from Africa, Asia, Latin America, and the Middle East who are applying for a Master’s program. The Kipaji Scholarship covers tuition fees, living expenses, and other costs related to studying abroad, providing a comprehensive financial aid package to deserving students.
Additional Scholarships for Specific Programs: In addition to the general scholarships mentioned above, the University of Twente also offers specific scholarships for students pursuing certain Master's programs. These scholarships are often offered in collaboration with academic departments or external organizations and can cover partial or full tuition fees.
Graduates of the MSc in Biomedical Engineering - Physiological Signals & Systems at the University of Twente are prepared for a wide range of careers in the biomedical engineering field, particularly in the areas of medical technology, diagnostics, and health monitoring. The program provides graduates with a strong foundation in physiological signals, signal processing, and system design, equipping them with the skills necessary to excel in various roles across healthcare, research, and technology development.
Biomedical Engineer (Medical Devices): Graduates can work as biomedical engineers, focusing on the design, development, and optimization of medical devices that monitor and analyze physiological signals, such as ECG, EEG, and EMG systems. They may work for medical device companies, developing innovative technologies for healthcare providers and patients.
Signal Processing Engineer: In this role, graduates specialize in the processing, analysis, and interpretation of physiological signals. They work with complex algorithms and software to extract valuable information from biological data, contributing to the development of diagnostic tools, wearable health devices, and monitoring systems.
Healthcare Technology Specialist: Graduates can work as healthcare technology specialists, applying their knowledge of physiological signals and systems to integrate new technologies into healthcare settings. They may be involved in the implementation of monitoring systems, diagnostic equipment, and patient care technologies in hospitals and clinics.
Clinical Engineer: Clinical engineers work in healthcare institutions, ensuring that medical equipment operates safely and effectively. With their expertise in physiological signals, graduates can take on roles where they troubleshoot, maintain, and upgrade medical devices and systems used in patient care.
Biomedical Researcher: Graduates can pursue research careers in academic institutions, hospitals, or private research labs, where they study the applications of physiological signals and systems in healthcare. They may work on developing new diagnostic technologies or improving existing ones, contributing to advancements in personalized medicine and healthcare diagnostics.
Product Development Engineer: As product development engineers, graduates can contribute to the creation and commercialization of innovative biomedical technologies, including diagnostic and monitoring devices. They work closely with teams in research and development to design and test products that meet market demands and regulatory standards.
Medical Data Scientist: Graduates with expertise in signal processing and physiological data analysis can become medical data scientists. In this role, they use their skills to interpret complex medical data, applying statistical and machine learning techniques to support decision-making in healthcare and the development of predictive health models.
Regulatory Affairs Specialist: With a deep understanding of medical technology and regulations, graduates can pursue careers in regulatory affairs, ensuring that biomedical devices and systems meet the required safety and quality standards. They navigate the regulatory landscape to secure approvals for new technologies and ensure compliance with local and international guidelines.
Medical Technology Consultant: As consultants, graduates advise healthcare providers, startups, or larger organizations on the implementation and integration of advanced medical technologies. They offer expertise in the development, testing, and deployment of physiological monitoring systems and health-related technologies.
Healthcare Systems Integrator: Graduates can work as integrators, helping to design and deploy healthcare systems that incorporate medical devices, monitoring tools, and data analysis systems. This role often involves working with hospitals, research institutions, and healthcare technology companies to ensure that technologies are effectively integrated into existing healthcare infrastructures.
