Application-Driven Model of a PPG Sensing Modality for the Informed Design of Self-Powered, Wearable Healthcare Systems

机译：PPG传感模式的应用驱动模型，用于自供电，可穿戴医疗系统的信息化设计

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The convergence of self-powered technology with on-body wearable applications creates impactful opportunities for more personalized healthcare. PPG sensing is recognized as a primary method for recovering physiological information but remains relatively high-power compared to the available energy harvesting options in an on-body self-powered context, limiting reliability. This paper introduces a PPG sensing model based on a differential regulated cascode TIA to demonstrate the power, signaling, and circuit tradeoffs that exist for self-powered PPG operation. The model shows that body-worn μW to sub-μW self-powered PPG operation is theoretically achievable and provides insight on challenges and limitations.

机译：自供电技术与人体可穿戴应用的融合为更个性化的医疗保健创造了巨大的机遇。 PPG传感被认为是恢复生理信息的主要方法，但与人体自供电环境中的可用能量收集选项相比，其功率仍然较高，从而限制了可靠性。本文介绍了一种基于差分调节共源共栅TIA的PPG传感模型，以演示自供电PPG操作所存在的功率，信令和电路折衷。该模型显示，从理论上可以实现人体佩戴的μW至亚μW自供电PPG操作，并提供了有关挑战和局限性的见识。

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《IEEE International Symposium on Circuits and Systems》|2020年|1-5|共5页
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Henry L. Bishop; Peng Wang; Benton H. Calhoun;
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Light emitting diodes; Power demand; Biomedical monitoring; Signal to noise ratio; Photodiodes; Reliability;

机译：发光二极管;功率需求;生物医学监测;信噪比;光电二极管;可靠性;

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1. Concurrent Harvesting of Ambient Energy by Hybrid Nanogenerators for Wearable Self-Powered Systems and Active Remote Sensing [J] . Zheng Haiwu, Zi Yunlong, He Xu, ACS applied materials & interfaces . 2018,第17期

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2. Electro-mechanical coupled design of self-powered sensing systems and performances comparison through experiments [J] . A. Somà, G. B. De Pasquale Frattura e Integrita Strutturale . 2012,第23期

机译：自供电传感系统的机电耦合设计及性能比较
3. 5G Wireless Communications Systems: Heterogeneous Network Architecture and Design for Small Cells, D2D Communications (Low Range, Multi-hop) and Wearable Healthcare System on chip (ECG, EEG) for 5G [J] . Niraj Shakhakarmi WSEAS Transactions on Communications . 2017,第Pta2期

机译：5G无线通信系统：异构网络架构和小型电池设计，D2D通信（低频，多跳）和芯片上可穿戴医疗保健系统（ECG，EEG）5G
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机译：用于医疗保健物联网的自供电可穿戴无线传感器设计面临的挑战
5. Modeling, Simulation and Validation of a Bio-Inspired and Self-Powered Miniature Pressure Sensing System for Monitoring Cerebral Intra Aneurysmal Pressure [D] . Mohan, Nithya P. 2017

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6. Flexible and Wearable PDMS-Based Triboelectric Nanogenerator for Self-Powered Tactile Sensing [O] . Jie Wang, Shuo Qian, Junbin Yu, 2019

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7. Recent Progress of Self-Powered Sensing Systems for Wearable Electronics [O] . Zheng Lou, La Li, Lili Wang, 2017

机译：可穿戴电子产品自动传感系统的最新进展

Application-Driven Model of a PPG Sensing Modality for the Informed Design of Self-Powered, Wearable Healthcare Systems

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