Enhancement of the Performance and Data Processing Rate of an Optical Frequency Domain Reflectometer Distributed Sensing System Using A Limited Swept Wavelength Range

Enhancement of the Performance and Data Processing Rate of an Optical Frequency Domain Reflectometer Distributed Sensing System Using A Limited Swept Wavelength Range

A novel optical frequency domain reflectometer (OFDR) processing algorithm is proposed to enhance the measurable range and data processing rate using a narrow swept spectrum range and reducing the time consuming of the process distributed sensing results. To reduce the swept wavelength range and sim...

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Main Authors: Kunpeng Feng, Jiwen Cui, Yihua Jin, Xun Sun, Dong Jiang, Hong Dang, Yizhao Niu, Jiubin Tan
Format: Article
Language:English
Published: MDPI AG 2018-10-01
Series:Sensors
Subjects:
distributed sensing
Rayleigh scattering
optical fiber
least-squares method
Online Access:http://www.mdpi.com/1424-8220/18/10/3480
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spelling doaj-19dc02ab71394cc8a48b167637c315312020-11-25T01:02:12ZengMDPI AGSensors1424-82202018-10-011810348010.3390/s18103480s18103480Enhancement of the Performance and Data Processing Rate of an Optical Frequency Domain Reflectometer Distributed Sensing System Using A Limited Swept Wavelength RangeKunpeng Feng0Jiwen Cui1Yihua Jin2Xun Sun3Dong Jiang4Hong Dang5Yizhao Niu6Jiubin Tan7Institute of Ultra-precision Optoelectronic Instrument Engineering, Science Park, Harbin Institute of Technology, Harbin 150080, ChinaInstitute of Ultra-precision Optoelectronic Instrument Engineering, Science Park, Harbin Institute of Technology, Harbin 150080, ChinaInstitute of Ultra-precision Optoelectronic Instrument Engineering, Science Park, Harbin Institute of Technology, Harbin 150080, ChinaInstitute of Ultra-precision Optoelectronic Instrument Engineering, Science Park, Harbin Institute of Technology, Harbin 150080, ChinaInstitute of Ultra-precision Optoelectronic Instrument Engineering, Science Park, Harbin Institute of Technology, Harbin 150080, ChinaInstitute of Ultra-precision Optoelectronic Instrument Engineering, Science Park, Harbin Institute of Technology, Harbin 150080, ChinaInstitute of Ultra-precision Optoelectronic Instrument Engineering, Science Park, Harbin Institute of Technology, Harbin 150080, ChinaInstitute of Ultra-precision Optoelectronic Instrument Engineering, Science Park, Harbin Institute of Technology, Harbin 150080, ChinaA novel optical frequency domain reflectometer (OFDR) processing algorithm is proposed to enhance the measurable range and data processing rate using a narrow swept spectrum range and reducing the time consuming of the process distributed sensing results. To reduce the swept wavelength range and simultaneously enhance strain measurable range, the local similarity characteristics of Rayleigh scattering fingerprint spectrum is discovered and a new similarity evaluation function based on least-square method is built to improve the data processing rate and sensing performance. By this method, the strain measurable range is raised to 3000 µε under a highest spatial resolution of 3 mm when the swept spectrum range is only 10 nm and the data processing rate is improved by at least 10 times. Experimental results indicate that a nonlinearity of less than 0.5%, a strain resolution of better than 10 µε, a repeatability at zero strain of below ±0.4 GHz and a full-scale accuracy is lower than 0.85 GHz under a highest spatial resolution of 3 mm can be achieved. Advantages of this method are fast processing rate, large strain measurable range, high SNR, and applicability with current OFDR systems.http://www.mdpi.com/1424-8220/18/10/3480distributed sensingRayleigh scatteringoptical fiberleast-squares method
collection DOAJ
language English
format Article
sources DOAJ
author Kunpeng Feng
Jiwen Cui
Yihua Jin
Xun Sun
Dong Jiang
Hong Dang
Yizhao Niu
Jiubin Tan
spellingShingle Kunpeng Feng
Jiwen Cui
Yihua Jin
Xun Sun
Dong Jiang
Hong Dang
Yizhao Niu
Jiubin Tan
Enhancement of the Performance and Data Processing Rate of an Optical Frequency Domain Reflectometer Distributed Sensing System Using A Limited Swept Wavelength Range
Sensors
distributed sensing
Rayleigh scattering
optical fiber
least-squares method
author_facet Kunpeng Feng
Jiwen Cui
Yihua Jin
Xun Sun
Dong Jiang
Hong Dang
Yizhao Niu
Jiubin Tan
author_sort Kunpeng Feng
title Enhancement of the Performance and Data Processing Rate of an Optical Frequency Domain Reflectometer Distributed Sensing System Using A Limited Swept Wavelength Range
title_short Enhancement of the Performance and Data Processing Rate of an Optical Frequency Domain Reflectometer Distributed Sensing System Using A Limited Swept Wavelength Range
title_full Enhancement of the Performance and Data Processing Rate of an Optical Frequency Domain Reflectometer Distributed Sensing System Using A Limited Swept Wavelength Range
title_fullStr Enhancement of the Performance and Data Processing Rate of an Optical Frequency Domain Reflectometer Distributed Sensing System Using A Limited Swept Wavelength Range
title_full_unstemmed Enhancement of the Performance and Data Processing Rate of an Optical Frequency Domain Reflectometer Distributed Sensing System Using A Limited Swept Wavelength Range
title_sort enhancement of the performance and data processing rate of an optical frequency domain reflectometer distributed sensing system using a limited swept wavelength range
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2018-10-01
description A novel optical frequency domain reflectometer (OFDR) processing algorithm is proposed to enhance the measurable range and data processing rate using a narrow swept spectrum range and reducing the time consuming of the process distributed sensing results. To reduce the swept wavelength range and simultaneously enhance strain measurable range, the local similarity characteristics of Rayleigh scattering fingerprint spectrum is discovered and a new similarity evaluation function based on least-square method is built to improve the data processing rate and sensing performance. By this method, the strain measurable range is raised to 3000 µε under a highest spatial resolution of 3 mm when the swept spectrum range is only 10 nm and the data processing rate is improved by at least 10 times. Experimental results indicate that a nonlinearity of less than 0.5%, a strain resolution of better than 10 µε, a repeatability at zero strain of below ±0.4 GHz and a full-scale accuracy is lower than 0.85 GHz under a highest spatial resolution of 3 mm can be achieved. Advantages of this method are fast processing rate, large strain measurable range, high SNR, and applicability with current OFDR systems.
topic distributed sensing
Rayleigh scattering
optical fiber
least-squares method
url http://www.mdpi.com/1424-8220/18/10/3480
work_keys_str_mv AT kunpengfeng enhancementoftheperformanceanddataprocessingrateofanopticalfrequencydomainreflectometerdistributedsensingsystemusingalimitedsweptwavelengthrange
AT jiwencui enhancementoftheperformanceanddataprocessingrateofanopticalfrequencydomainreflectometerdistributedsensingsystemusingalimitedsweptwavelengthrange
AT yihuajin enhancementoftheperformanceanddataprocessingrateofanopticalfrequencydomainreflectometerdistributedsensingsystemusingalimitedsweptwavelengthrange
AT xunsun enhancementoftheperformanceanddataprocessingrateofanopticalfrequencydomainreflectometerdistributedsensingsystemusingalimitedsweptwavelengthrange
AT dongjiang enhancementoftheperformanceanddataprocessingrateofanopticalfrequencydomainreflectometerdistributedsensingsystemusingalimitedsweptwavelengthrange
AT hongdang enhancementoftheperformanceanddataprocessingrateofanopticalfrequencydomainreflectometerdistributedsensingsystemusingalimitedsweptwavelengthrange
AT yizhaoniu enhancementoftheperformanceanddataprocessingrateofanopticalfrequencydomainreflectometerdistributedsensingsystemusingalimitedsweptwavelengthrange
AT jiubintan enhancementoftheperformanceanddataprocessingrateofanopticalfrequencydomainreflectometerdistributedsensingsystemusingalimitedsweptwavelengthrange
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