BSc in Biomedical Engineering - Computational Biomedical Engineering in Austin United States | University of Texas at Austin

In biomedical engineering, students collaborate with faculty to build cross-disciplinary expertise and create clinically applicable solutions for human health—ranging from designing artificial organs and injury recovery devices to developing advanced detection systems and improved medical imaging technologies. Texas Engineering graduates pursue careers in academic institutions and various sectors of health care and biotechnology. The Bachelor of Science in Biomedical Engineering (BSBME) is an undergraduate program that merges engineering methods with biological sciences. Graduates emerge as engineers equipped with fundamental training to tackle the most challenging medical issues.
The most effective medical solutions arise from teams with diverse technical viewpoints. Biomedical engineering is an interdisciplinary field that integrates elements of chemical, mechanical, and electrical engineering with human physiology to address health care challenges. Our undergraduate curriculum provides a foundational interdisciplinary education in engineering and science basics, biomaterials, physiology, instrumentation, biomechanics, engineering design, and additional topics.
This area aims to equip students with the knowledge and skills to design and apply computational algorithms for biomedical research and health care challenges. Examples include (a) creating medical decision aids using statistical and machine learning models, (b) using dynamic modeling and computer simulation to analyze biomechanics and movement control, (c) developing thermodynamic models for dynamic processes at microscopic and macroscopic levels in biological systems, and (d) applying image processing techniques for quantitative measurement and interpretation of biomedical images. Students must complete 12 semester hours from Technical Area 3 electives, with at least 6 of those hours in engineering courses.