[1] SHANG Y, LIN J R, YANG L H, et al. Precision improvement in frequency scanning interferometry based on suppression of the magnification effect[J]. Optics express, 2020, 28(4):5822-5834.
[2] LIU H, ZHANG W, SHAO B, et al. Algorithm of Doppler error suppression in frequency-swept interferometry for the dynamic axial clearance measurement of high-speed rotating machinery[J]. Optics express, 2021, 29(26):42471-42484.
[3] SHAO B, ZHANG W, ZHANG P, et al. Multi-parameter measurement of rotors using the Doppler effect of frequency-swept interferometry[J]. Sensors, 2020, 20(24):7178.
[4] CHEN X L, WANG X C, PAN S L. Accuracy enhanced distance measurement system using double-sideband modulated frequency scanning interferometry[J]. Optical engineering, 2017, 56(3):036114-036117.
[5] CHEN Y, LEI X, XIAO L, et al. Dynamic distance measurement based on a fast frequency-swept interferometry[J]. Sensors, 2022, 22(13):4771.
[6] DENG Z, LIU Z, LI B, et al. Precision improvement in frequency-scanning interferometry based on suppressing nonlinear optical frequency sweeping[J]. Optical review, 2015, 22(5):724-730.
[7] ZHU Y, LIU Z G, DENG W, et al. Input signal shaping based on harmonic frequency response function for suppressing nonlinear optical frequency in frequency-scanning interferometry[J]. Review of scientific instruments, 2018, 89(5):053109.
[8] DENG W, LIU Z, DENG Z, et al. Extraction of interference phase in frequency-scanning interferometry based on empirical mode decomposition and Hilbert transform[J]. Applied optics, 2018, 57:2299-2305.
[9] JIANG S, LIU B, WANG H, et al. Absolute distance measurement using frequency-scanning interferometry based on Hilbert phase subdivision[J]. Sensors, 2019, 19(23):5132.
[10] ZHU Y, WANG Z, TIAN K, et al. Phase-generated carrier combined with the Hilbert transform for phase demodulation in frequency-scanning interferometry[J]. Optics and lasers in engineering, 2022, 153:106988.
[11] JIA X Y, LIU Z G, DENG Z W, et al. Dynamic absolute distance measurement by frequency sweeping interferometry based Doppler beat frequency tracking model[J]. Optics communications, 2019, 430:163-169.
[12] JIA X, LIU Z, TAO L, et al. Frequency-scanning interferometry using a time-varying Kalman filter for dynamic tracking measurements[J]. Optics express, 2017, 25(21):25782-25796.
[13] DENG Z, LIU Z, JIA X, et al. Dynamic cascade-model-based frequency-scanning interferometry for real-time and rapid absolute optical ranging[J]. Optics express, 2019, 27(15):21929-21945.
[14] LU C, XIANG Y, GAN Y, et al. FSI-based non-cooperative target absolute distance measurement method using PLL correction for the influence of a nonlinear clock[J]. Optics letters, 2018, 43(9) : 2098-2101.
[15] ZHANG F, YI L, QU X. Simultaneous measurements of velocity and distance via a dual-path FMCW lidar system[J]. Optics communications, 2020, 474:126066.
[16] SHAO B, ZHANG W, ZHANG P, et al. Dynamic clearance measurement using fiber-optic frequency-swept and frequency-fixed interferometry[J]. IEEE photonics technology letters, 2020, 32(20):1331-1334.