Research

Projects & Publications

My doctoral and postdoctoral research centered on wearable and cyber-physical systems for smart health — spanning triboelectric energy harvesting, self-powered motion sensing, non-contact biopotential monitoring, smart textile sensing, and technology for healthy aging.

16 publications across 5 research areas
013 publications
Triboelectric Energy Harvesting
Wearable low-cost triboelectric energy harvesters using e-textile and foam, and high-efficiency SSHI power management circuits for converting human motion to electricity.
TENG / TEHSSHI RectifierE-TextilePower ManagementIEEE Trans. Power Electron.
023 publications
Self-Powered Triboelectric Motion Sensing
Batteryless wearable systems that simultaneously sense motion and harvest energy via triboelectrification — enabling activity recognition and gait analysis without external power.
Self-Powered SensingActivity RecognitionGait AnalysisWearable IoTIEEE IoT Journal
034 publications
Non-Contact Biopotential Sensing
Capacitive non-contact electrode systems for ECG, EMG, and EEG acquisition through clothing — enabling unobtrusive long-term health monitoring without skin contact or conductive gel.
Non-Contact ECGCapacitive ElectrodesMotion ArtifactSmart Health
042 publications
Smart Textiles & Wearable Sensing
Programmable embroidered pressure sensors and e-textile integration — advancing textile-based platforms for health monitoring, human–machine interaction, and assistive robotics.
E-TextileEmbroidery SensorFlexible ElectronicsIEEE/ACM CHASE
054 publications
Aging, Smart Health & Cyber-Physical Systems
Sensor-based systems for detecting social isolation and loneliness in elderly communities, fall risk evaluation from electronic health records, and multimodal gait and sleep sensing — developed during postdoctoral research at the University of Pennsylvania.
GerontechnologySocial IsolationFall RiskEHR DataClinician-in-the-LoopACM/IEEE ICCPS