Paper Info
Title
Constructing an optical fiber sensor network for natural environment remote monitoring
Abstract
This study aim to design and construct a sensor network for natural environment remote monitoring with heterocore spliced optical fibers sensor. The system is able to establish both data communications and sensing function on the same line simultaneously based on introducing a hetero-core spliced fiber optic SPR sensor which can measure the refractive index of dielectrics into an optical path. Moreover, adoption of a wavelength 1310 nm could make the data transmitted over longer distance than that of conventional wavelength (850 nm) in order to monitor a wide area. To promote the SPR sensing in 1310 nm band, a new sensor covered with Tantalum Pentoxide (Ta2O5) was contrived and examined the data communications property of it. Finally, a new monitoring system was placed in an actual farm and succeeded in gathering environmental information.
Year
DOI
Venue
2011
10.1109/APCC.2011.6152806
APCC
Keywords
Field
DocType
environmental monitoring (geophysics),fibre optic sensors,optical fibre networks,remote sensing,ta2o5,data communications,heterocore spliced fiber optic spr sensor,natural environment remote monitoring,optical fiber sensor network,optical path,wavelength 1310 nm,wavelength 850 nm,surface plasmon resonance,hetero-core spliced optical fibers sensor,remote monitoring,refractive index,optical fiber,network monitoring,optical fibers,sensor network,fiber optic,natural environment,optical fiber sensor
Optical path,Optical fiber,Fiber optic sensor,Monitoring system,Computer science,Electronic engineering,Real-time computing,Fibre optic sensors,Wireless sensor network,Wavelength,Refractive index
Conference
ISSN
ISBN
Citations 
2163-0771
978-1-4577-0389-8
2
PageRank 
References 
Authors
0.49
1
5
Name
Order
Citations
PageRank
lee see goh120.49
koichi onodera220.49
mitsuhisa kanetsuna320.49
kazuhiro watanabe421.84
Norihiko Shinomiya55019.15