Areas of Research:
- Bioimpedance
- Engineering Education
- Fractional-Order Circuits
- Signal and Data Processing
- Tissues
- Wearable Sensors
My research focuses on the measurement and application of tissue electrical properties for health monitoring. This research spans from the design of wearable electronics for data collection, to modeling impedance data with equivalent circuits, to evaluating differences between groups through daily living or exercise interventions.
Research:
- Bioimpedance
- Fractional Circuits and Systems
Research Areas:
- Athletic and Sport Technology
- Biomedical Devices
- Embedded Systems
- Engineering Education and Pedagogy
- Internet of Medical Things (IoMT)
- Sensors
- Signal Processing
- Wearable Technologies.
His research interests span sensors to measure biological tissues, biomedical signal processing for health applications, and fractional-order circuits and systems.
Research in his laboratory has developed wearable sensors for characterizing knee joints and tissues (focused on knee osteoarthritis), characterized alterations in tissues resulting from exercise-induced fatigue, developed systems to track segmental fluid shifts in the body, and evaluated non-invasive methods to characterize laryngeal tissues.
