Assoc. Prof. Dr. Yu-Hsiang Hsu is a leading researcher at National Taiwan University 🇹🇼 specializing in biomedical engineering, microfluidics, and wearable technology 🧠🩺👕. He heads the Microphysiological System & Smart Wearables Lab, focusing on organ-on-chip systems 🧪 and piezoelectric fiber sensors for non-invasive health monitoring 💓📈. With a Ph.D. from UC Irvine and postdoctoral experience at Caltech, Dr. Hsu has published 30+ high-impact papers 📚 and holds 24 patents 🧾. His interdisciplinary innovations bridge medicine, engineering, and materials science—making him a global contributor to next-gen health technologies 🌍💡.
Assoc. Prof. Dr Yu-Hsiang Hsu, National Taiwan University, Taiwan
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🎓 Education
Dr. Yu-Hsiang Hsu holds a Ph.D. in Biomedical Engineering 🧠🔧 and a Master’s in the same field from the University of California, Irvine 🇺🇸. He also earned dual degrees from National Taiwan University 🇹🇼, with a B.Sc. in Mechanical Engineering ⚙️ and a Master’s in Applied Mechanics 📐. His interdisciplinary academic journey bridges engineering, medicine, and microtechnology, laying a strong foundation for his innovations in organ-on-chip and wearable sensor systems. With global academic exposure and cross-disciplinary depth, Dr. Hsu exemplifies a scholar trained to solve real-world health and technology challenges through integrated education 🌍🎓🧪.
👨🏫 Experience
Assoc. Prof. Dr. Yu-Hsiang Hsu has been with National Taiwan University (NTU) since 2013, initially as an Assistant Professor and later promoted to Associate Professor in 2019 👨🏫🎓. At NTU’s Institute of Applied Mechanics, he leads the Microphysiological System & Smart Wearables Lab, driving innovation in organ-on-chip platforms and flexible biosensors 🧬📡. His work merges biomedical engineering with real-world applications in health monitoring and drug testing. With over a decade of academic leadership, he has mentored students, collaborated globally, and secured 24 patents for his pioneering biomedical technologies 🔬🌍🧾.
⚙️ Smart Systems Research
Assoc. Prof. Dr. Yu-Hsiang Hsu has made pioneering contributions to smart systems, particularly in piezoelectric-driven technologies for biomedical and precision applications. His research includes the development of 2D piezoelectric traveling-wave generators 🔄, miniature pumps for medical use 💉, and ultrasonic micro-droplet generators 🌊💧. Innovations like the multi-integer frequency two-mode (MIF-TM) method and gated two-frequency motorization enhance control and performance in smart actuators and sensors 📈. Published in top journals like Smart Materials and Structures and Sensors and Actuators, Dr. Hsu’s work bridges mechanical design, microfluidics, and biomedical engineering seamlessly for next-gen health tech ⚙️🩺.
🔬 Research Focus
Dr. Yu-Hsiang Hsu’s research bridges biomedical engineering, mechanics, and smart materials to advance wearable health technology and organ-on-chip systems 🩺🔬. His work includes developing ultra-compliant piezoelectric fiber sensors for monitoring muscle activity, fatigue, and swallowing dynamics 💪👅, as well as creating microfluidic tumor models and cardiac tissues-on-chip for drug screening and disease modeling 🧬🫀. He explores how mechanical signals govern cell behavior and tissue function, leveraging precision engineering for non-invasive diagnostics and physiological simulation ⚙️🧫. His innovations are enabling smarter, more responsive tools for healthcare and biomedical research 🌐💡.
📚 Publications
An ultra-compliant P(VDF-TrFE) fiber-based muscle patch sensor for a new wearable application: Monitoring muscle activities and fatigue through the peripheral length of a muscle’s physiological cross-sectional area
Authors: Yu-Hsiang Hsu et al.
Journal: Sensors and Actuators A: Physical (2025)
A piezoelectric swallow patch sensor and its correlation to the physiological swallowing processes
Authors: Yu-Hsiang Hsu et al.
Journal: Smart Materials and Structures (2025)
Spatially controlled diffusion range of tumor-associated angiogenic factors to develop a tumor model using a microfluidic resistive circuit
Authors: Yu-Hsiang Hsu et al.
Journal: Lab on a Chip (2024)
Regional activation of a composite plate using selective actuation from multiple piezoelectric actuators
Authors: Yu-Hsiang Hsu et al.
Conference: Engineering Conference Presentation
Study on the coupling effect of a plate-type piezoelectric vibrator and a polymer-based rod array
Authors: Yu-Hsiang Hsu et al.
Conference: Engineering Conference Presentation
Design and Development of a Miniature Self-propelled Ultrasonic Piezoelectric Plate Motor
Authors: Yu-Hsiang Hsu et al.
Conference: Robotics/MEMS Conference
Precision Control of a Multi-Axis Robotic Arm Using Sliding Mode Control with PID Control Method
Authors: Yu-Hsiang Hsu et al.
Conference: Control Engineering Symposium
Control of a multi-direction piezoelectric linear motor using a gyroscopic feedback control
Authors: Yu-Hsiang Hsu et al.
Conference: Mechatronics/Control Conference