Academic Units

Bachelor Program In Digital Healthcare

Bachelor Program In Digital Healthcare

The undergraduate program was established in August 2013, with a curriculum that emphasizes physics and chemistry as the foundation, applied to the development of biophotonics and nanoscience. The program integrates the faculty and resources of the Institute of Biophotonics, aiming to cultivate students with both strong fundamental knowledge and practical application abilities at the undergraduate level.

The program is led by a Program Director, who oversees its overall planning and development. In addition to administrative operations, the program is supported by a Curriculum Committee, which convenes every semester to discuss and make decisions on all major academic and program-related matters.
DETAIL

The Digital Medical Program is designed to integrate core concepts of artificial intelligence, mathematical statistics, programming, biomedical signal processing, medical imaging, digital medicine, and sensing technologies. With a strong foundation in both software and hardware, the program aims to develop advanced intelligent healthcare systems and train students to apply AI technologies to solve real-world medical challenges.

The curriculum emphasizes interdisciplinary learning, combining science, engineering, and biomedical applications. It is structured around two main domains:
Biomedical AI and Innovative Medical Technology.
Students build solid foundations in mathematics and programming, while exploring applications in biology and medicine. Through this structure, the program cultivates future talents who can contribute to digital healthcare and medical technology innovation.

To meet the demands of the rapidly growing digital health industry, students are encouraged to systematically explore topics such as AI, big data, sensors, and medical imaging. By learning in a collaborative and cross-disciplinary environment, they acquire the knowledge and skills needed for smart healthcare and precision medicine.

The program also focuses on the integration of cutting-edge technologies like intelligent imaging systems and precision sensors. With this vision, it aims to foster innovation, cultivate digital healthcare professionals, and support Taiwan’s transition toward a high-value medical technology economy.