A Self‐Sensing and Self‐Powered Wearable System Based on Multi‐Source Human Motion Energy Harvesting

Abstract Wearable devices play an indispensable role in modern life, and the human body contains multiple wasted energies available for wearable devices. This study proposes a self‐sensing and self‐powered wearable system (SS‐WS) based on scavenging waist motion energy and knee negative energy. The proposed SS‐WS consists of a three‐degree‐of‐freedom triboelectric nanogenerator (TDF‐TENG) and a negative energy harvester (NEH). The TDF‐TENG is driven by waist motion energy and the generated triboelectric signals are processed by deep learning for recognizing the human motion. The triboelectric signals generated by TDF‐TENG can accurately recognize the motion state after processing based on Gate Recurrent Unit deep learning model. With double frequency up‐conversion, the NEH recovers knee negative energy generation for powering wearable devices. A model wearing the single energy harvester can generate the power of 27.01 mW when the movement speed is 8 km h −1 , and the power density of NEH reaches 0.3 W kg −1 at an external excitation condition of 3 Hz. Experiments and analysis prove that the proposed SS‐WS can realize self‐sensing and effectively power wearable devices.