Simultaneous Measurement of Strain and Temperature Distributions Using Optical Fibers with Different GeO2 and B2O3 Doping

Abstract: Compensating for the effects of temperature is a crucial issue in structural health monitoring when using optical fiber sensors. This study focused on the change in sensitivity due to differences in GeO2 and B2O3 doping and then verified the accuracy when measuring the strain and temperature distributions simultaneously. Four types of optical fiber sensors were utilized to measure the strain and temperature in four-point bending tests, and the best combination of the sensors resulted in strain and temperature … Show more

“…In 2016, Wada et al utilized PANDA-FBGs to achieve simultaneous temperature and strain measurements in an OFDR system [17]. In 2023, Hisada et al accomplished temperature and strain measurements by inducing changes in sensitivity through doping of germanium dioxide and diboron trioxide [18]. Dual parametric coefficients matrix demodulation is always used for separated temperature and strain measurement.…”

Temperature insensitive distributed wide-dynamic-range strain sensing based on polarization-maintaining photonic crystal fiber

“…In 2016, Wada et al utilized PANDA-FBGs to achieve simultaneous temperature and strain measurements in an OFDR system [17]. In 2023, Hisada et al accomplished temperature and strain measurements by inducing changes in sensitivity through doping of germanium dioxide and diboron trioxide [18]. Dual parametric coefficients matrix demodulation is always used for separated temperature and strain measurement.…”

Temperature insensitive distributed wide-dynamic-range strain sensing based on polarization-maintaining photonic crystal fiber

Radiation effects on Brillouin-based Sensors: Feasibility of temperature and strain discrimination using LEAF Single-Mode optical fiber

Simultaneous Measurement of Strain and Temperature Distribution in a Four-Point Bending Test Using FBGs with Different GeO2 and B2O3 Doping