Biomedical Engineering Electrical and Electronic Engineering Double Major Program (B.S., 4 Years)

4 Years On Campus Bachelors Program

Eastern Mediterranean University Cyprus

Program Overview

This dual degree combines the cutting-edge fields of biomedical and electrical engineering, positioning you at the intersection of healthcare innovation and advanced technology. You'll graduate with two undergraduate diplomas in just four years, giving you a competitive edge in industries where medical device development, healthcare technology, and biomedical systems are rapidly evolving.

Curriculum Structure

First Year Foundation
Your initial year builds essential engineering fundamentals through courses like Algorithms and Data Structures and Statics, which establish the mathematical and computational backbone you'll need. You'll also study Material Science, giving you insight into how different materials behave—critical knowledge when designing medical devices that must interact safely with the human body. These foundational courses ensure you have a solid technical platform before advancing to specialized topics.

Second and Third Year Specialization
As you progress, you'll dive into the core electrical engineering courses that distinguish this program: Circuit Theory-II, Physical Electronics, and Electromagnatics-I form the theoretical heart of your electrical expertise. Simultaneously, you'll engage with Control Systems-I and Electromechanical Energy Conversion, practical courses that directly apply to biomedical instrumentation and medical device operation. This phase balances theory with hands-on application, ensuring you understand both the "why" and the "how" behind the technologies transforming healthcare.

Final Year Integration
Your capstone year integrates everything through specialized courses including Electronics-II, Communication Systems-I, and Microprocessor-I. These courses represent the cutting edge of how biomedical engineers solve real-world problems—from designing communication protocols for remote patient monitoring to developing the microprocessor-based control systems in modern medical devices.

Focus Areas

Signal and image processing, medical device design and manufacturing, biomedical data analysis, healthcare technology systems, and integrated circuits for medical applications.

Learning Outcomes

Graduates apply engineering principles to understand biological systems, design innovative biomedical solutions for patient care, engineer robust solutions to complex health-related problems, and develop critical leadership and professional skills for diverse team environments.

Professional Alignment

The Electrical and Electronic Engineering Undergraduate Program is accredited by the Engineering Accreditation Commission of ABET, ensuring your degree meets international standards for engineering excellence and is recognized globally by employers.

Career Opportunities & Employability

With an aging population and rising demand for healthcare innovation, biomedical engineers are in high demand across multiple sectors. You'll be qualified for roles in biomedical data analysis, medical device product design and management, healthcare regulations, research and development in medical instrumentation, and simulation of biological systems. EMU's Faculty of Engineering supports student and faculty exchange with numerous EU and USA-Canada universities, building your international professional network.

Experiential Learning (Research, Projects, Internships etc.)

In our Biomedical Engineering Electrical and Electronic Engineering Double Major Program (B.S., 4 Years) at Eastern Mediterranean University, you'll dive right into hands-on learning that builds real-world skills from day one. Our Faculty of Engineering offers state-of-the-art laboratories fully equipped for B.Sc.-level education in electrical, electronic, and biomedical applications, where you'll work on everything from circuit design to biological system modeling. You'll collaborate across departments like Electrical and Electronic Engineering, Biological Sciences, and even Health Sciences, applying engineering principles to predict physiological behaviors and create medical tech solutions. This experiential approach prepares you for patient-care innovations, with access to specialized tools in signal processing, power systems, telecommunications, and control systems right in our dedicated facilities.

Here's how you'll gain those practical skills through specific program features:
- Advanced laboratories in the Electrical and Electronic Engineering Department for hands-on work in electronics, electromagnetics, control systems, and microprocessor design (e.g., courses like EENG342 Electronics-II, EENG320 Control Systems-I, EENG410 Microprocessor-I).
- Interdisciplinary research labs supporting biomedical applications, including simulation and modeling of biological systems, medical device design, and biomedical data/image analysis, coordinated with Biology, Physics, Chemistry, and Medicine faculties.
- Group project opportunities embedded in courses like Algorithms and Data Structures (EENG212), Circuit Theory-II (EENG224), and Electromechanical Energy Conversion (EENG350), fostering teamwork in complex problem-solving.
- Specialized software and digital tools for CAD-CAM, virtual reality, signal & image processing, and ICT systems in the Engineering Faculty's high-tech setups.

Imagine turning your passion for tech and health into a career designing life-saving devices—our double major gives you two powerful degrees in just four years, with strong job prospects in medical device R&D, healthcare tech, and beyond. Spots fill up fast, so apply today at emu.edu.tr and let's get you started!

Progression & Future Opportunities

In our Biomedical Engineering Electrical and Electronic Engineering Double Major Program at Eastern Mediterranean University, you'll dive right into hands-on learning from day one, building real-world skills through cutting-edge labs and projects that blend biomedical applications with electrical and electronics expertise. Our Faculty of Engineering houses modern laboratories equipped with the latest educational technologies, multi-projection classrooms, and strong internet connections, all designed to let you experiment with everything from circuit design to physiological systems modeling. You'll work alongside top faculty—8 professors, 5 associate professors, and more—who bring global experience to guide you in practical training that's ABET-accredited for quality you can trust.

This means plenty of opportunities to get your hands dirty:
- State-of-the-art labs in the Electrical & Electronic Engineering Department for courses like Circuit Theory, Physical Electronics, Control Systems, and Microprocessors, where you'll design and test real biomedical devices and systems.
- Modern facilities across the Faculty of Engineering, including specialized setups for signal & image processing, power systems, telecommunications, and control—perfect for double-major projects in biomedical data analysis and medical device prototyping.
- Group project work embedded in the curriculum, such as Algorithms and Data Structures (EENG212), Electromechanical Energy Conversion (EENG350), and Communication Systems (EENG360), fostering teamwork on complex engineering challenges.
- Experiential focus on biomedical applications, like simulating biological systems and engineering patient-care tech, with an emphasis on leadership and interdisciplinary collaboration with biology, medicine, and health sciences.
- Digital tools and software integrated into courses like Microprocessor-I (EENG410) and Electronics-II (EENG342), plus high-tech classroom systems for software/hardware engineering in info, comms, and integrated circuits.

Imagine applying to a program where you graduate with two powerful B.S. degrees, ready to lead in medical device innovation or healthcare tech—spots fill fast, so let's get your application started today.