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This paper proposes a wearable inductor channel for blood pressure monitoring system in daily life. To achieve high wearability and low power consumption, inductive coupling concept with textile-based inductors is introduced. Two types of wearable inductors are proposed, and both of them are demonstrated to have the possibility as a wearable inductor channel for blood pressure sensors in daily life.
This paper presents a self-configured wearable BSN system with high efficiency wirelessly powered sensors that continuously monitor ECG and other vital signals at the selected locations on the body with low power consumption.
A low-energy inductive coupling link with a low energy fault-tolerant wearable body sensor network (BSN) controller is proposed to realize intra- and cross-layer wearable network at once. The intra-layer switch adopts the hybrid routing scheme to achieve fault-tolerance, and the cross-layer inductive transceiver employs the resonance compensator with an on-chip capacitor bank and a variable hysteresis...
A healthcare monitoring system with wireless woven inductor channels is proposed for body sensor networks. A sensor node with the proposed woven inductor channel consumes only 300 uW for sensing and 340 uW for communication with 1 Mbps data rate. The personal sensor controller consumes 8 mW, and the efficiency is 178 times than the previous work.
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