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基于双芯光纤传感器的无创人体生命体征监测

Non-invasive human vital signs monitoring based on twin-core optical fiber sensors.

作者信息

Tan Fengze, Chen Shuyang, Lyu Weimin, Liu Zhengyong, Yu Changyuan, Lu Chao, Tam Hwa-Yaw

机构信息

Photonics Research Center, Department of Electronic and Information Engineering, The Hong Kong Polytechnic University, Hong Kong, China.

Photonics Research Center, Department of Electrical Engineering, The Hong Kong Polytechnic University, Hong Kong, China.

出版信息

Biomed Opt Express. 2019 Oct 29;10(11):5940-5951. doi: 10.1364/BOE.10.005940. eCollection 2019 Nov 1.

DOI:10.1364/BOE.10.005940
PMID:31799056
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6865122/
Abstract

Twin-core fiber (TCF)-based sensor was proposed for non-invasive vital sign monitoring, including respiration and heartbeat. The TCF was homemade and the corresponding sensor was fabricated by sandwiching single-mode fiber (SMF) on both ends. The offset distance between SMF and TCF was optimized while the length of TCF was identified from preliminary vital sign measurement results. Then, the TCF-based sensor was attached under a mattress to realize non-invasive vital sign monitoring. Both respiration and heartbeat signal can be obtained simultaneously, which is consistent with the reference signals. For further application, post-exercise physiological activitity characterization were realized based on this vital sign monitoring system. In discussion, mode coupling in TCF was analyzed and utilized for curvature sensing with achieved sensitivity as high as 18 nm/m, which supported its excellent performance for vital signs monitoring. In conclusion, the TCF-based vital signs monitors can be a promising candidate for healthcare and biomedical applications.

摘要

提出了一种基于双芯光纤(TCF)的传感器用于非侵入式生命体征监测,包括呼吸和心跳监测。该双芯光纤为自制,相应的传感器通过在两端夹上单模光纤(SMF)制成。优化了单模光纤与双芯光纤之间的偏移距离,同时根据初步的生命体征测量结果确定了双芯光纤的长度。然后,将基于双芯光纤的传感器附着在床垫下以实现非侵入式生命体征监测。呼吸和心跳信号均可同时获取,且与参考信号一致。为进一步应用,基于该生命体征监测系统实现了运动后生理活动特征分析。在讨论中,分析了双芯光纤中的模式耦合并将其用于曲率传感,灵敏度高达18 nm/m,这支持了其在生命体征监测方面的优异性能。总之,基于双芯光纤的生命体征监测器有望成为医疗保健和生物医学应用的候选产品。

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