Courses Taught

BMEE 6322 – Cardiovascular Biomechanics

Fall Semester 2024, Spring Semeter 2026

This graduate-level course introduces the mathematical and computational techniques essential for modeling cardiovascular systems. Applications in cardiovascular physiology, treatment planning, and medical device design are presented to connect theory with clinical relevance. Fundamental mechanics concepts are discussed in the context of the cardiovascular system, with topics including cardiovascular anatomy and disease, vascular tree structure, scaling laws, lumped-parameter modeling, and patient-specific hemodynamic simulation.


MECE 2335 – Engineering Thermodynamics I

Spring Semester 2025, Spring Semester 2026

This undergraduate course covers the fundamental principles of thermodynamics, including energy, entropy, and properties of pure substances. Applications include engineering systems such as power cycles and refrigeration.


BMEE 6318 – Biomedical Engineering Analysis

Fall Semester 2025

This course introduces mathematical modeling and simulation of engineering systems for graduate students with a biomedical science background enrolled in the BME master’s program. Topics include linear algebra, analytical and numerical solutions of ordinary differential equations, Fourier series, and partial differential equations applied to heat conduction and structural vibrations. Emphasis is placed on understanding the mathematical tools and computational approaches necessary to analyze and simulate biomedical and engineering systems.