摘要
利用分布式光纤布拉格光栅(FBG)传感器进行人体温度的检测,研制了智能服装样衣,重点从人体生理学基础理论、人体热平衡及空气热传递理论等方面研究智能服装在穿着过程中的热传递机理,对热传递过程进行分析和研究,从理论上建立起人体皮肤-空气-服装(传感器)三者之间的热传递数学模型,为智能服装中分布式FBG传感器人体温度测量提供理论依据,并提出了智能服装中Houdas改进模型用以确定分布式FBG传感器测量点,最后阐述了智能服装用光纤植入服装的方法。在实验研究中,智能服装样衣中分布式FBG传感器所测人体温度与温度场模拟数据对照差异无统计学意义,据此可以得出分布式FBG传感器所测温度可以作为临床医学人体腋下温度使用。
Optical Fiber Bragg Grating (FBG) sensors have received increasing attention in the fields of aeronautic and civil engineering for their superior ability of explosion proof, immunity to electromagnetic interference and high accuracy, especially fitting for measurement applications in harsh environment. A novel integration of FBG sensors into clothing is becoming an increasingly important segment in electronic textile research. A functioning prototype of such an intelligent biomedical clothing is introduced. It aims at the integration of optical fibers based sensors into functional textiles for extending the capabilities of wearable solutions for body temperature monitoring. According to the laws of human body physiology and heat transmission in fabric, the mechanism of heat transmission between body and clothed FBG sensors was studied and the calculating formula reflecting the heat transfer process between body and clothed FBG sensors was presented. Some details and overview regarding our ongoing efforts for achieving the goals are provided. The experimental results are in good agreement with those obtained by temperature-field simulation. This should favor their use for clinical axillary temperature monitoring.
出处
《光学学报》
EI
CAS
CSCD
北大核心
2009年第1期208-212,共5页
Acta Optica Sinica
基金
国家自然科学基金(60844002)
天津市自然科学基金重点(07JCZDJC06300)资助课题
关键词
传感器
智能服装
光纤布拉格光栅
数学模型
光纤
sensors
intelligent clothing
fiber Bragg gratings
mathematical model
fiber
