平台下,安设有智能化基础结构,包括带传感器的供水管道及一张光纤网络。
Below the platform sits the smart infrastructure, including water pipes with sensors and a fibre-optic network.
本课题所做的工作,为以后高性能光纤气体传感器的研究打下了一定的基础,提供了积极的参考价值。
The work of this subject has Played a solid foundation and Provided a valuable reference for the research of high-Performance Optical Fiber Gas Sensor in the future.
在此基础上分析了传感器的空间分辨力、光纤耦合点分辨力、最大传感光纤长度。
On these bases, the length resolution, fiber coupling point resolution and maximum sensing fiber spatial of the sensor were obtained.
本文在对各种分布式温度传感器进行比较分析的基础上,确定了所采用的基于拉曼散射的光纤温度传感方案。
Deep research is taked on the distributed optic fiber temperature sensor in this thesis, and the distributed optic fiber sensor based on the Raman scattering is adoptioned.
因此基于结构的振动是多个振动模态按一定比例线性的叠加的理论基础,提出了一种新型传感器,分布式光纤曲率模态传感器用于薄结构的振动测量。
Based on practical structure can be regarded as the stack of multiple vibration mode, a new concept of modal curvature sensors with optical fiber is proposed to measure vibration mode.
在阐述光纤布喇格光栅(FBG)传感器工作原理的基础上,研究了光纤光栅传感器在混凝土结构中的埋设技术。
The embedding technology of the FBG sensor in concrete structure has been studied based on FBG sensing principle.
设计了一种以单片机和光纤传感器为基础构成的表面粗糙度测量系统。
This paper designs a surface roughness measuring system based on single chip and optical fiber sensor.
以光纤光栅技术为基础的光纤光栅传感器已经成为传感器研究领域中的一大热点。
Optical fiber grating sensors based on optical fiber grating technology have become the focus in sensors study field.
为了使光纤光栅传感器埋入到复合材料中,对结构进行健康监测,其基础研究尤为重要。
The infrastructure study is very important, when optical fiber grating is embedded in composite materials for structure health monitoring.
根据鉴相的理论基础,该文阐述了光纤传感器在动态定距测量系统中的功能;
Based on the phase demodulation theory, the function of optic fiber sensor int he system was described in this paper.
利用光纤在流体中光的强度、相位、频率等受流量调制的特性,在传统流量传感器的基础上,可以制得新型的光纤流量传感器。
Based on the traditional flowmeter , a new type flowmeter is fablicated utilizing the features of the fiber2optic in fluid , in which the amplitude , phase or frequence of the light may be modulated.
同时可望解决光纤珐-珀传感器的批量制造问题,从而为微光纤珐-珀传感器的广泛应用奠定基础,因此,具有重要的应用价值。
Simultaneously, it could solve the issue of mass production of F-P sensor, and offer basis for the purpose of wide application of F-P sensor, which is also significant from aspect of application.
同时可望解决光纤珐-珀传感器的批量制造问题,从而为微光纤珐-珀传感器的广泛应用奠定基础,因此,具有重要的应用价值。
Simultaneously, it could solve the issue of mass production of F-P sensor, and offer basis for the purpose of wide application of F-P sensor, which is also significant from aspect of application.
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