MSc in Electrical Engineering - Smart Grids
The MSc in Electrical Engineering - Smart Grids at Tampere Uni...
Master of Science in Biomedical Sciences and Engineering - Biomedical Informatics
Hervanta
INTAKE: September
Program Overview
The Master of Science in Biomedical Sciences and Engineering - Biomedical Informatics program at Tampere University provides a multidisciplinary education that integrates advanced techniques in computer science, data analysis, and biomedical engineering. This program focuses on the use of information technology to analyze and manage biomedical data, which is essential for improving healthcare systems and advancing medical research. Students learn to apply informatics principles to areas such as healthcare data management, clinical decision support systems, medical imaging, bioinformatics, and the development of healthcare software solutions. The program is designed to equip students with the skills required to work at the intersection of healthcare and technology, addressing the growing demand for professionals capable of managing and analyzing large-scale biomedical data.
Curriculum: The curriculum of the Biomedical Informatics program covers a range of subjects that bridge the gap between biomedical sciences, engineering, and informatics. Students will gain in-depth knowledge of areas such as healthcare data management, bioinformatics, medical software engineering, and machine learning for biomedical applications. Core courses include topics like data mining, medical informatics, medical imaging techniques, and the design and development of healthcare systems. The program also provides training in programming languages, algorithms, and data structures, essential for handling complex biomedical datasets. Additionally, students can select electives to specialize in areas of personal interest, such as telemedicine, health data analytics, or health IT security. The program emphasizes practical, hands-on learning through project work and research, culminating in a Master's thesis that typically involves real-world biomedical informatics challenges.
Research Focus: Tampere University is recognized for its strong research focus in the field of Biomedical Informatics, particularly in the application of data science and machine learning to healthcare. Research in this area aims to improve healthcare delivery, diagnostics, and patient care by leveraging large datasets, such as electronic health records (EHRs), genetic data, and medical imaging. Some of the key research areas include the development of advanced algorithms for medical image analysis, the use of artificial intelligence (AI) in clinical decision-making, and the creation of predictive models for disease diagnosis and patient outcomes. Biomedical informatics research at Tampere University also explores personalized medicine, integrating genomics, patient data, and healthcare systems to provide tailored treatment plans. Students in this program are encouraged to participate in cutting-edge research projects, working alongside experts in the field and contributing to groundbreaking developments in medical technology.
Industry Engagement: The Biomedical Informatics program at Tampere University benefits from the university’s strong ties with industry partners in the healthcare, technology, and biomedical sectors. Students have opportunities to collaborate on projects with leading companies involved in health IT, medical software, and digital health innovation. The program includes internships and industry-based projects that allow students to gain real-world experience, working with healthcare providers, tech companies, and research institutions to solve practical problems in healthcare data management and biomedical informatics. These industry connections not only provide valuable networking opportunities but also give students insight into the latest trends and challenges in the field, ensuring they are well-prepared for successful careers after graduation.
Global Perspective: The Biomedical Informatics program at Tampere University offers a global perspective, attracting students and researchers from around the world. The program emphasizes international collaboration, and students have the opportunity to work on global research initiatives that address healthcare challenges faced by diverse populations. The university is part of international research networks, allowing students to engage in exchange programs, attend global conferences, and collaborate with peers from different cultural and academic backgrounds. Graduates are equipped to work in the international healthcare and technology sectors, addressing the growing need for biomedical informatics professionals in global healthcare systems.
Location
Hervanta
Score
Tuition Fee
€ 12000
Postgraduate Entry Requirements
Application Fee: €100
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 60% or above in their bachelor's degree.
English Language Proficiency:
- English language test waiver is applicable if the Bachelor's, Master's, Licentiate, or Doctoral degree is in English language.
Tampere University in Finland offers various scholarship opportunities to help international students finance their education and living costs. The university is supporting talented and motivated students from around the world, ensuring that financial constraints do not prevent them from pursuing higher education in Finland.
Tampere University Scholarships for Non-EU/EEA Students: Tampere University offers scholarships to international students from non-EU/EEA countries applying to Master's degree programs. These scholarships are designed to cover tuition fees and help students with the cost of living in Finland. The scholarship covers either partial or full tuition fees, depending on the student's academic merit and the specific program applied to.
Tampere University Scholarship for Excellence: The Tampere University Scholarship for Excellence is awarded to exceptional students based on their academic achievements. This scholarship aims to recognize the outstanding academic performance of students during their studies and provide them with additional financial support. The scholarship amount varies depending on the level of achievement, and students who maintain excellent academic performance may be eligible for renewal during their studies.
Finland Scholarship: The Finland Scholarship is a government-funded initiative aimed at attracting top talent to Finland from abroad. Tampere University participates in this scholarship program, which is available to non-EU/EEA students who apply for Master's degree programs in Finland. The Finland Scholarship covers tuition fees and provides an additional grant to help with living expenses during the first year of study. This scholarship is awarded based on academic merit and is designed to make studying in Finland more accessible to international students.
Scholarships for Exchange Students: Tampere University also offers limited scholarships for exchange students from partner universities. These scholarships help cover travel costs, accommodation, and other living expenses during the exchange period. Exchange students should check with their home university’s exchange program office to inquire about the available scholarship opportunities.
External Scholarships and Funding: In addition to university-specific scholarships, international students can explore external scholarship opportunities provided by the Finnish government, private organizations, and other funding bodies. These scholarships may be available for both undergraduate and graduate students. International students are encouraged to research and apply for other scholarships to support their studies in Finland.
Graduates of the Master of Science in Biomedical Sciences and Engineering - Biomedical Informatics program at Tampere University have a wide range of career opportunities in the rapidly growing fields of biomedical data science, healthcare technology, and informatics. With a strong foundation in data analysis, machine learning, medical informatics, and computational biology, graduates are well-prepared to work in both the healthcare and technology sectors, where there is a high demand for professionals who can leverage data to improve patient care, healthcare delivery, and medical research.
Biomedical Informatics Specialist: Graduates can work as specialists in biomedical informatics, applying their knowledge of data analytics and health systems to improve the management of medical data, electronic health records (EHR), and patient care.
Health Data Scientist: In this role, graduates will work on processing and analyzing large datasets from healthcare environments, identifying trends, and providing insights that can inform clinical decision-making, medical research, and public health strategies.
Clinical Decision Support Analyst: As a clinical decision support analyst, graduates can develop systems that assist healthcare providers in making data-driven decisions, improving clinical outcomes, and optimizing treatment plans using patient data.
Medical Data Engineer: Medical data engineers focus on developing and maintaining the infrastructure required to manage and store large volumes of healthcare data, ensuring that data is organized, accessible, and secure.
Healthcare Software Developer: Graduates can work as software developers specializing in creating applications and platforms for healthcare institutions, including EHR systems, telemedicine apps, and clinical tools that use biomedical data.
Bioinformatics Researcher: Graduates interested in research can pursue positions in bioinformatics, applying computational techniques to analyze biological data, such as genomic or proteomic information, to discover new insights into disease mechanisms and therapeutic targets.
Healthcare IT Consultant: Graduates may work as consultants for healthcare organizations, advising them on how to integrate and optimize healthcare IT systems, improve data security, and streamline operations.
Machine Learning Engineer (Healthcare): With a focus on biomedical data, graduates can apply machine learning and AI algorithms to build predictive models for healthcare applications, such as disease prediction, patient monitoring, and drug discovery.
Medical Imaging Specialist: Biomedical informatics graduates with an interest in imaging can pursue careers in the development of medical imaging technologies and systems that utilize artificial intelligence for image processing and diagnostics.
Regulatory Affairs Specialist: In this role, graduates ensure that healthcare software, data systems, and biomedical devices comply with healthcare regulations, privacy laws, and data protection standards, ensuring the safe and effective use of medical technologies.
