BE (Hons) in Biomedical Electronics

Carlow

 

INTAKE: September

Program Overview

The BE (Hons) in Biomedical Electronics program at South East Technological University (SETU), Ireland, is at the forefront of interdisciplinary education, merging principles of electronics engineering with biomedical sciences. This innovative program equips students with the knowledge and skills required to design, develop, and maintain electronic devices and systems used in healthcare settings, contributing to advancements in medical technology and improving patient care.

Curriculum: The curriculum for the BE (Hons) in Biomedical Electronics at SETU is meticulously designed to provide students with a strong foundation in both electronics engineering and biomedical sciences. Students study core subjects such as circuit theory, digital signal processing, medical instrumentation, bioinformatics, and biomedical imaging. Additionally, they explore specialized topics such as medical device regulation, healthcare ethics, and biocompatibility of materials. The curriculum integrates theory with hands-on laboratory work, projects, and internships, allowing students to apply their knowledge in real-world scenarios and develop practical skills essential for success in the field.

Research Focus: Research is a cornerstone of the BE (Hons) in Biomedical Electronics program at SETU. Faculty members are actively engaged in research projects that address key challenges and opportunities in biomedical electronics, such as developing wearable health monitoring devices, improving medical imaging techniques, and designing assistive technologies for individuals with disabilities. Students have the opportunity to participate in research initiatives, collaborate with faculty on projects, and pursue independent research interests. Through research-focused coursework and experiential learning opportunities, students develop critical thinking skills and contribute to advancements in medical technology.

Industry Engagement: SETU maintains strong connections with industry partners in the healthcare and electronics sectors to ensure that its Biomedical Electronics program remains relevant and responsive to industry needs. The university collaborates with medical device companies, hospitals, research institutes, and regulatory agencies to provide students with industry engagement opportunities such as internships, co-op programs, and industry-sponsored projects. Guest lectures, seminars, and workshops featuring industry experts allow students to gain insights into current trends, best practices, and emerging technologies in biomedical electronics. Industry partnerships also facilitate mentorship opportunities, professional networking, and potential employment prospects for graduates.

Global Perspective: In an increasingly globalized healthcare industry, SETU emphasizes the importance of providing students with a global perspective in biomedical electronics. The Biomedical Electronics program incorporates elements that expose students to international healthcare systems, medical device markets, regulatory frameworks, and cultural considerations. Students have the opportunity to learn about healthcare challenges and innovations in different parts of the world, participate in international collaborations, and engage with global healthcare professionals. Study abroad programs, exchange opportunities, and multicultural learning experiences further enhance students' cross-cultural competencies and prepare them to work in diverse and international healthcare environments.

Pollster Education

Location

Carlow

Pollster Education

Score

IELTS 6

Pollster Education

Tuition Fee

€ 13500

Undergraduate Entry Requirements 

Application Fee: € 50

Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 70% or above in their previous academic qualifications.

English Language Proficiency:

  • IELTS: Overall band score of 6.0 or 6.5 with a minimum of 5.5 in each component.
  • TOEFL: Overall score of 79 with a minimum of 17 in each section.
  • PTE: Overall score of 57 with a minimum of 50 in each section.
  • DET: Overall score of 90.

Students must provide:

  • academic marksheets & transcripts
  • letters of recommendation
  • a personal statement - SOP
  • passport
  • other supporting documents as required by the university.

It's important to note that entry requirements can vary by program and may change over time. Additionally, some programs may have additional requirements, such as interviews, portfolios, or work experience.

South East Technological University offers a range of scholarships tailored to support and recognize the academic achievements of international students. These scholarships aim to facilitate access to high-quality education and contribute to the university's diverse and dynamic learning environment. 

International Merit Scholarships: These scholarships are designed to reward outstanding academic performance. They are available for both undergraduate and postgraduate students and can significantly offset tuition costs.

Research Scholarships: South East Technological University encourages international students to engage in groundbreaking research. Research scholarships may be available to assist students in various research projects, contributing to advancements in their respective fields.

Diversity Scholarships: The university recognizes the value of a diverse and inclusive student body. Diversity scholarships aim to support students from a range of backgrounds and promote multiculturalism within the university community.

Excellence in Sports Scholarships: For international students with exceptional sporting talents, excellence in sports scholarships may be an option. These scholarships recognize and support student-athletes in their pursuit of academic and athletic success.

Exchange Program Scholarships: South East Technological University encourages international exchange programs to promote cross-cultural understanding. Scholarships may be available for students participating in exchange programs with partner institutions.

Industry-Specific Scholarships: Some scholarships are designed for students pursuing specific fields of study, such as STEM (Science, Technology, Engineering, and Mathematics) disciplines, arts, or business. These scholarships may be provided in collaboration with industry partners.

Community Engagement Scholarships: The university values community involvement and engagement. Scholarships may be awarded to students who actively contribute to the local community through volunteer work and civic participation.

Graduates of the BE (Hons) in Biomedical Electronics program at South East Technological University (SETU), Ireland, are well-equipped to pursue diverse and rewarding career paths at the intersection of electronics engineering and biomedical sciences.

Biomedical Electronics Engineer: One of the primary career options for graduates is to become biomedical electronics engineers. They design, develop, and maintain electronic devices and systems used in healthcare settings, such as medical imaging equipment, patient monitoring devices, and diagnostic instruments. Biomedical electronics engineers work for medical device companies, hospitals, research institutions, and regulatory agencies, contributing to advancements in medical technology and improving patient care.

Medical Device Developer: Graduates can pursue careers as medical device developers, focusing on the design and innovation of medical devices and technologies. They collaborate with healthcare professionals, engineers, and scientists to conceptualize, prototype, and commercialize new medical devices that address clinical needs and improve patient outcomes. Medical device developers work for companies specializing in medical device design, manufacturing, and distribution, contributing to the development of innovative solutions for healthcare challenges.

Clinical Engineer: Graduates with a focus on clinical engineering can work as clinical engineers, supporting the implementation and maintenance of medical equipment and technology in healthcare facilities. They ensure that medical devices are safe, reliable, and compliant with regulatory standards, and provide technical expertise to healthcare professionals on equipment selection, operation, and troubleshooting. Clinical engineers work in hospitals, clinics, and healthcare organizations, playing a vital role in ensuring the effective use of medical technology in patient care.

Research and Development Scientist: For those interested in research, graduates can pursue careers as research and development scientists, conducting research to advance knowledge and innovation in biomedical electronics. They design experiments, analyze data, and develop new technologies and techniques for medical diagnostics, treatment, and monitoring. Research and development scientists work in academic institutions, research laboratories, and private industry, contributing to scientific discoveries and breakthroughs that drive advancements in healthcare.

Regulatory Affairs Specialist: Graduates may work as regulatory affairs specialists, responsible for ensuring compliance with regulatory requirements and standards for medical devices and equipment. They review and interpret regulations, prepare regulatory submissions, and liaise with regulatory agencies to obtain approvals for new products and modifications. Regulatory affairs specialists play a critical role in navigating the complex regulatory landscape of the healthcare industry and ensuring that medical devices meet quality, safety, and efficacy standards.

Healthcare Technology Consultant: Graduates can work as healthcare technology consultants, providing specialized expertise and advisory services to healthcare organizations, government agencies, and industry stakeholders. They assess technology needs, develop strategies for technology implementation, and provide recommendations on the selection, deployment, and optimization of medical devices and systems. Healthcare technology consultants help organizations leverage technology to improve patient care, enhance operational efficiency, and achieve strategic goals.


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