Lorentzian demodulation algorithm for multimode polymer optical fiber Bragg gratings

Yosuke Mizuno; Tianyi Ma; Ryo Ishikawa; Heeyoung Lee; Antreas Theodosiou; Kyriacos Kalli; Kentaro Nakamura

doi:10.7567/1347-4065/aaf897

Lorentzian demodulation algorithm for multimode polymer optical fiber Bragg gratings

Yosuke Mizuno, Tianyi Ma, Ryo Ishikawa, Heeyoung Lee, Antreas Theodosiou, Kyriacos Kalli, Kentaro Nakamura

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

For strain sensing applications, we develop a simple and accurate Lorentzian demodulation algorithm for fiber Bragg gratings (FBGs) inscribed in multimode optical fibers. As multimode FBG spectra generally exhibit multiple peaks, simply tracking some particular spectral peaks (i.†e., maximum detection) results in measurement failure when the strain is large. Here, using an FBG inscribed in a perfluorinated graded-index multimode polymer optical fiber, we experimentally evaluate the new method by comparing its performance with those of other demodulation algorithms, such as the maximum and centroid detection methods. Finally, using this method, we demonstrate the accurate measurement of strain of up to 1.0%.

Original language	English
Article number	028003
Journal	Japanese Journal of Applied Physics
Volume	58
Issue number	2
DOIs	https://doi.org/10.7567/1347-4065/aaf897
Publication status	Published - 2019
Externally published	Yes

ASJC Scopus subject areas

Engineering(all)
Physics and Astronomy(all)

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title = "Lorentzian demodulation algorithm for multimode polymer optical fiber Bragg gratings",

abstract = "For strain sensing applications, we develop a simple and accurate Lorentzian demodulation algorithm for fiber Bragg gratings (FBGs) inscribed in multimode optical fibers. As multimode FBG spectra generally exhibit multiple peaks, simply tracking some particular spectral peaks (i.†e., maximum detection) results in measurement failure when the strain is large. Here, using an FBG inscribed in a perfluorinated graded-index multimode polymer optical fiber, we experimentally evaluate the new method by comparing its performance with those of other demodulation algorithms, such as the maximum and centroid detection methods. Finally, using this method, we demonstrate the accurate measurement of strain of up to 1.0%.",

author = "Yosuke Mizuno and Tianyi Ma and Ryo Ishikawa and Heeyoung Lee and Antreas Theodosiou and Kyriacos Kalli and Kentaro Nakamura",

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language = "English",

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T1 - Lorentzian demodulation algorithm for multimode polymer optical fiber Bragg gratings

AU - Mizuno, Yosuke

AU - Ma, Tianyi

AU - Ishikawa, Ryo

AU - Lee, Heeyoung

AU - Theodosiou, Antreas

AU - Kalli, Kyriacos

AU - Nakamura, Kentaro

PY - 2019

Y1 - 2019

N2 - For strain sensing applications, we develop a simple and accurate Lorentzian demodulation algorithm for fiber Bragg gratings (FBGs) inscribed in multimode optical fibers. As multimode FBG spectra generally exhibit multiple peaks, simply tracking some particular spectral peaks (i.†e., maximum detection) results in measurement failure when the strain is large. Here, using an FBG inscribed in a perfluorinated graded-index multimode polymer optical fiber, we experimentally evaluate the new method by comparing its performance with those of other demodulation algorithms, such as the maximum and centroid detection methods. Finally, using this method, we demonstrate the accurate measurement of strain of up to 1.0%.

AB - For strain sensing applications, we develop a simple and accurate Lorentzian demodulation algorithm for fiber Bragg gratings (FBGs) inscribed in multimode optical fibers. As multimode FBG spectra generally exhibit multiple peaks, simply tracking some particular spectral peaks (i.†e., maximum detection) results in measurement failure when the strain is large. Here, using an FBG inscribed in a perfluorinated graded-index multimode polymer optical fiber, we experimentally evaluate the new method by comparing its performance with those of other demodulation algorithms, such as the maximum and centroid detection methods. Finally, using this method, we demonstrate the accurate measurement of strain of up to 1.0%.

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Lorentzian demodulation algorithm for multimode polymer optical fiber Bragg gratings

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