Biomedical Engineering B.S.

Bioinstrumentation and Neural Engineering Track

The Bioinstrumentation and Neural Engineering track prepares students to design and evaluate advanced medical devices that interface with biological and neural systems. Integrating biomedical electronics, signal processing, and neural engineering, students develop expertise in biosensors, medical imaging, neural signal acquisition, brain–computer interfaces, and wearable devices. Emphasis is placed on ethical considerations, including patient safety, data privacy, and regulatory compliance.

Interdisciplinary collaboration with clinicians and industries supports the development of practical biomedical solutions. Graduates of this track are well-positioned for careers in medical device industries, healthcare organizations, and research laboratories, and to pursue advanced studies in biomedical engineering, neuroscience, or medicine.

The specialized courses required for this track total 24 credits:

• BME 362/363 – Biomedical Instrumentation Design/Lab (3/1)
• ELE 314 – Signals and Systems II (3)
• BME 468 – Neural Engineering (3)
• BME 461 – Physiological Modeling and Control (3)
• BME 464/465 – Medical Imaging/Lab (3/1)
• ELE 456 – Foundations of Robotics (3)
• BME 473 – Brain Signal Processing and Applications (4)