[1] LUO M M, LIU J F, TANG C J, et al. 0.5mm spatial resolution distributed fiber temperature and strain sensor with position-deviation compensation based on OFDR[J]. Optics express, 2019, 27(24):35823-35829.

[2] EICKHOF W, ULRICH R. Optical frequency domain reflectometry in single mode fiber[J]. Applied physics letters, 1981, 9(39):693-695.

[3] FAN X, KOSHIKIYA Y, ITO F. Phase-noise-compensated optical frequency-domain reflectometry[J]. IEEE journal of quantum electronics, 2009, 45(6):594-602.

[4] FROGGATT M, MOORE J. High-spatial-resolution distributed strain measurement in optical fiber with Rayleigh scatter[J]. Applied optics, 1998, 37(10):1735-1740.

[5] CHEN D, LIU Q, HE Z. Phase-detection distributed fiber-optic vibration sensor without fading-noise based on time-gated digital OFDR[J]. Optics express, 2017, 25(7):8315.

[6] LI J, GAN J, ZHANG Z, et al. High spatial resolution distributed fiber strain sensor based on phase-OFDR[J]. Optics express, 2017, 25(22):27913.

[7] LO Y L, CHUANG C H. New synthetic-heterodyne demodulator for an optical fiber interferometer[J]. IEEE journal of quantum electronics, 2001, 37(5):658-663.

[8] ZHANG A L, WANG K H, ZHANG S, et al. All-digital demodulation system of interferometric fiber optic sensors using animproved PGC algorithm based onfundamental frequency mixing[J]. Optoelectronics letters, 2015, 11(3):222-225.

[9] BUCARO J A. Fiber-optic hydrophone[J]. Journal of the acoustical society of America, 1977, 62(5):1302-1304.

[10] WANG G Q, XU T W, FANG L. PGC demodulation technique with high stability and low harmonic distortion[ J]. IEEE photonics technology letters, 2012, 24(23):2093-2096.

[11] HUANG S C, HUANG Y F, WU Z Z. Sensitivity normalization technique of PGC demodulation with low harmonic distortion and high stability using laser modulation to generate carrier signal[J]. Sensors and actuators A physical, 2012, 174:198-206.

[12] YANG L, WANG L, TIAN C, et al. Analysis and optimization of the PGC method in all digital demodulation systems[J]. Journal of lightwave technology, 2009, 26(18):3225-3233.

[13] WU Y, GAN J, LI Q, et al. Distributed fiber voice sensor based on phase-sensitive optical time-domain reflectometry[J]. IEEE photonics journal, 2015, 7(6):1-10.

[14] FAN X J, LIU J F, LUO M M, et al. A method for nonlinearity compensation of OFDR based on polynomial regression algorithm[J]. Optoelectronics letters, 2020, 16(2):108-111.

[15] SANG A K, FROGGATT M E, GIFFORD D K, et al. One centimeter spatial resolution temperature measurements in a nuclear reactor using Rayleigh scatter in optical fiber[J]. IEEE sensors journal, 2008, 8(7):1375-1380.