Our graduate students can choose one of three tracks to pursue and take courses in:
- Neural, Cognitive, and Rehabilitation Engineering
- Biomedical Imaging
- Bionanoscience
Please review typical timelines for students in our program:
Program Study for the M.S. in Biomedical Engineering with Thesis
The program requires the completion of a minimum of 30 credit hours of approved graduate work distributed as follows:
- one (1) math course: BIOE 6300
- one (1) statistics course: BIOE 6301
- one (1) core course: BIOE 6350
- four (4) elective courses
- three (3) research credits
- six (6) thesis credits
- seminar attendance (required with research enrollment)
Note: Two of the four elective courses must be taken within the BIOE department (effective Fall 2016)
Program Study for the M.S. in Biomedical Engineering without Thesis
The program requires the completion of a minimum of 30 credit hours of approved coursework distributed as follows:
- one (1) math course: BIOE 6300
- one (1) statistics course: BIOE 6301
- one (1) core course: BIOE 6350
- seven (7) elective courses
Note: Four of the seven elective courses must be taken within the BIOE department (effective Fall 2016)
Doctor of Philosophy in Biomedical Engineering (with prior M.S. Degree, effective Fall 2020)
The program requires a minimum of 54 credit hours of approved graduate work distributed as follows:
- one (1) math course: BIOE 6300
- one (1) core course: BIOE 6350
- two (2) elective courses
- thirty (30) research credits
- twelve (12) dissertation credits
- seminar attendance (required with research enrollment)
Doctor of Philosophy in Biomedical Engineering (directly from Undergraduate, effective Fall 2020)
The program requires a minimum of 72 credit hours of approved graduate work distributed as follows:
- two (2) math courses: BIOE 6300 and approved MATH elective
- one (1) statistics course: BIOE 6301
- one (1) core course: BIOE 6350
- four (4) elective courses
- thirty six (36) research credits
- twelve (12) dissertation credits
- seminar attendance (required with research enrollment)
Note: Three of the four elective courses must be taken within the BIOE department
Doctor of Philosophy in Biomedical Engineering (with prior M.S. Degree)
The program requires a minimum of 54 credit hours of approved graduate work distributed as follows:
- one (1) math course (beyond M.S. level): BIOE 6300
- one (1) core course: BIOE 6350
- six (6) elective courses
- eighteen (18) research credits
- twelve (12) dissertation credits
- seminar attendance (required with research enrollment)
Note: Four of the six elective courses must be taken within the BIOE department (effective Fall 2016)
Doctor of Philosophy in Biomedical Engineering (directly from Undergraduate)
The program requires a minimum of 84 credit hours of approved graduate work distributed as follows:
- two (2) math courses: BIOE 6300 and approved MATH elective
- one (1) statistics course: BIOE 6301
- one (1) core course: BIOE 6350
- eight (8) elective courses
- thirty six (36) research credits
- twelve (12) dissertation credits
- seminar attendance (required with research enrollment)
Note: Five of the eight elective courses must be taken within the BIOE department (effective Fall 2016)
Course Offerings Include:
- BIOE 6300: Math Methods in Biomedical Engineering
- BIOE 6301: Statistical Methods in Biomedical Engineering
- BIOE 6303: Biomaterials
- BIOE 6305: Brain-Machine Interfacing
- BIOE 6306: Advanced Artificial Neural Networks
- BIOE 6307: Cell Biology for BME
- BIOE 6309: Neural Interfaces
- BIOE 6310: Drug Design & Delivery
- BIOE 6311: Advances in Vision Research
- BIOE 6319: Mass Transport for Bio Systems
- BIOE 6320: Tissue Engineering
- BIOE 6340: Quantitative Systems Biology and Disease
- BIOE 6341: Advanced Biofluid Dynamics
- BIOE 6342: Biomedical Signal Processing
- BIOE 6343: Global Healthcare
- BIOE 6344: Advances in Regenerative Medicine and Stem Cell Engineering
- BIOE 6345: Biomedical Informatics
- BIOE 6346: Advanced Medical Imaging
- BIOE 6347: Introduction to Optical Sensing and Biophotonics
- BIOE 6348: Advanced Bioelectromagnetic Imaging
- BIOE 6349: Biomedical Microdevices
- BIOE 6350: Genomic and Proteomic Engineering
- BIOE 6351: Diseases and Biomarkers
- BIOE 6397: Advances in Organ Fabrication
- BIOE 6397: Neural Engineering Methods and Applications
- BIOE 6397: Engineering the Human Body
Please note that all of our courses are offered only once a year - some courses only in the fall, and some only in the spring. We currently do not offer these courses in the summer session.