M.Eng. in Computer Science
The M.Eng. in Computer Science program at the University of Cincinnati focuses on provi...
West Campus, Cincinnati, Ohio
INTAKE: August
The M.S. in Biomedical Engineering program at the University of Cincinnati combines principles of engineering and biology to address challenges in healthcare, medicine, and the development of medical devices and technologies. The program aims to equip students with a strong foundation in biomedical engineering principles, research methods, and practical skills. Students have access to state-of-the-art facilities and laboratories, working closely with renowned faculty members who are experts in various areas of biomedical engineering.
Curriculum:
The curriculum of the M.S. in Biomedical Engineering program is designed to provide students with a comprehensive understanding of biomedical engineering principles and applications.
Core Biomedical Engineering Courses: Students take core courses that cover foundational topics in biomedical engineering, including biomechanics, biomaterials, medical imaging, physiological systems, and biomedical instrumentation.
Specialization Tracks: Students have the option to choose from different specialization tracks based on their interests and career goals. These tracks may include areas such as tissue engineering and regenerative medicine, biomedical imaging and diagnostics, medical device design and development, or computational modeling and simulation.
Elective Courses: Students can select elective courses that align with their specific interests and allow them to gain in-depth knowledge in specialized areas. Elective courses may cover topics such as neural engineering, bioinformatics, drug delivery systems, or biomedical signal processing.
Laboratory Experience: The program emphasizes hands-on experience in laboratory settings. Students have the opportunity to work on research projects or engage in practical experiments to develop their skills in experimental design, data analysis, and problem-solving.
Capstone Project or Thesis: As a culminating experience, students undertake a capstone project or thesis in collaboration with faculty members or industry partners. This project allows them to apply their knowledge and skills to solve real-world biomedical engineering problems or conduct research in a specific area of interest.
West Campus, Cincinnati, Ohio
IELTS 6.5
USD 28114
Application Fees : US$ 80
Academic Qualifications:
English Language Proficiency: The accepted English language proficiency tests at UC are:
Graduate Record Examination (GRE): The minimum GRE score required may vary depending on the program. Generally, a score of 310 or higher is recommended, but applicants should check the specific program requirements for accurate information.
STEM-Designated Programs: UC offers a range of STEM-designated programs that are eligible for additional benefits, such as Optional Practical Training (OPT) extensions for international students. STEM-designated programs are aligned with disciplines in science, technology, engineering, and mathematics.
Credential Evaluation: International applicants are typically required to submit a credential evaluation from a recognized evaluation service, such as NACES (National Association of Credential Evaluation Services) or WES (World Education Services)
It is important for prospective international postgraduate students to review the specific admission requirements of their intended program at UC, as requirements may vary between programs.
The University of Cincinnati (UC) offers a range of scholarships to international students to support their academic journey. These scholarships recognize academic achievement, leadership potential, and contributions to the community.
Global Scholarship: The Global Scholarship is a prestigious merit-based scholarship offered to incoming international undergraduate students. It provides partial tuition coverage for up to four years of study at UC. Selection is highly competitive, and students are evaluated based on their academic achievements, leadership qualities, and extracurricular involvement.
UC Global Scholarship Plus: The UC Global Scholarship Plus is an enhanced scholarship program that combines the Global Scholarship with additional funding. This provides greater financial support to international undergraduate students, covering a larger portion of their tuition expenses.
UC International Excellence Award: The UC International Excellence Award is a merit-based scholarship available to outstanding international undergraduate students. It recognizes academic excellence, leadership potential, and a commitment to making a positive impact. Recipients of this award receive financial support towards their tuition costs.
Graduate Student Scholarships: UC offers various scholarships and assistantship opportunities to international graduate students. These scholarships may cover tuition expenses, provide stipends, or offer research or teaching assistant positions. Graduate students are encouraged to explore specific scholarships and assistantship opportunities within their respective departments or programs.
Country-Specific Scholarships: UC may offer scholarships specifically tailored to students from certain countries or regions. These scholarships may be based on academic achievement, financial need, or specific criteria set by donors or sponsoring organizations. Prospective international students are advised to check with the university's financial aid office or international admissions office for country-specific scholarship opportunities.
It's important to note that scholarship availability, criteria, and application processes may vary from year to year.
Graduates of the M.S. in Biomedical Engineering program from the University of Cincinnati have excellent career prospects in a variety of industries and sectors.
Biomedical Engineer: Graduates can work as biomedical engineers in research and development, designing and testing medical devices, prosthetics, implants, and diagnostic tools.
Medical Device Industry: Graduates can pursue careers in the medical device industry, contributing to the design, manufacturing, and regulatory aspects of medical devices.
Biotechnology and Pharmaceutical Companies: Graduates can work in biotechnology or pharmaceutical companies, applying their knowledge of biomedical engineering to develop new drugs, therapies, and technologies.
Healthcare Institutions: Graduates can find opportunities in hospitals, clinics, and healthcare institutions, collaborating with healthcare professionals to improve patient care through technology-based solutions.
Research and Development: Graduates can pursue research careers in academic institutions, government laboratories, or private research organizations, contributing to advancements in biomedical engineering and healthcare technology.
Regulatory Affairs: Graduates can work in regulatory affairs, ensuring compliance with industry regulations and standards for medical devices and technologies.
Entrepreneurship: With their knowledge of biomedical engineering principles and market needs, graduates can start their own companies and entrepreneurial ventures, developing innovative solutions in healthcare and biomedical technology.