Biomedical Instrumentation focuses on the research and development of smart interventional tools, micro-manipulation, wearable/implantable sensing, robotics and intelligent point-of-care devices for the prevention, early diagnosis, minimally invasive treatment and personalized intervention of diseases. Future development of biomedical instrumentation requires multidisciplinary collaboration of electronic engineering, computer science, precision-instrumentation, basic science disciplines and medicine. By leveraging the latest developments in sensing, micro-fabrication, bio-electronics and allied technologies including machine learning, biophotonics, and nanotechnology, our research paves the way for the future development of precision medicine.

Core Competencies

· Robot-assisted navigation in surgery

· Minimally invasive surgical robots

· Thermal physiotherapy

· Thermo-sensitive drug delivery

· Cardiovascular imaging and physiology

· Multidimensional medical imaging processing

· Biomedical signal processing

· Hemodynamic analysis

· Biomedical ultrasound

· Physical therapy technology and clinical application

· Design and standardization of medical devices

Application Areas

· Guidance of interventional and surgical procedures

· Tumor and cancer treatment

· Cardiology and vascular diseases

· Nervous system diseases

· Disability and rehabilitation

· Visual dysfunction

Primary Faculty