Fiber-Optic Gyroscope Accuracy Improvement by Suppressing the Parasitic Effects in Integrated Optic Phase Modulators

被引:4
作者
Kurbatov A.M. [1 ]
Kurbatov R.A. [1 ]
Goryachkin A.M. [1 ]
机构
[1] Center for Operation of Space Ground Based Infrastructure, Research Institute of Applied Mechanicsnamed after Acad. V.I. Kuznetsov, Moscow
来源
Gyroscopy and Navigation | 2019年 / 10卷 / 04期
关键词
closed feedback loop; dead zone; fiber-optic gyroscope; integrated optic phase modulator; phase drift distortions in auxiliary phase modulation; stepped sawtooth voltage distortions;
D O I
10.1134/S2075108719040114
中图分类号
学科分类号
摘要
Abstract: The results of study of a fiber-optic gyroscope prototype with 0.01–0.001deg/h drift are presented. The gyroscope comprises three feedback loops: one for Sagnac phase difference compensation, the second one for the scale factor stabilization, and the third (fast-response) one for the compensation of constant component of optical signal on the photodetector, affecting the measurement channel. To increase the accuracy of the prototype gyroscope up to the level of 0.001 deg/h, it is proposed to use the fourth and the fifth feedback loops which will suppress the parasitic effects in the integrated optic phase modulators. © 2019, Pleiades Publishing, Ltd.
引用
收藏
页码:256 / 267
页数:11
相关论文
共 50 条
  • [31] The Quality Prediction of Fiber-Optic Gyroscope Based on the Grey Theory and BP Neural Network
    Ji, Na
    Cai, Hongxia
    Proceedings of the 6th International Workshop of Advanced Manufacturing and Automation, 2016, 24 : 130 - 137
  • [32] Polarization bias error model and simulation of fiber-optic gyroscope with double optical length
    Xu, Hongjie
    Zhang, Wenyan
    Xu, Xiaobin
    Song, Ningfang
    Hu, Yongkang
    Guangxue Xuebao/Acta Optica Sinica, 2014, 34 (10):
  • [33] Compact and Robust Open-Loop Fiber-Optic Gyroscope for Applications in Harsh Environments
    Moslehi, Behzad M.
    Yahalom, Ram
    Faridian, Ferey
    Black, Richard J.
    Taylor, Edward W.
    Ooi, Teng
    Corder, Aaron
    NANOPHOTONICS AND MACROPHOTONICS FOR SPACE ENVIRONMENTS IV, 2010, 7817
  • [34] Analysis on phase detection sensitivity of photon entangled fiber optic gyroscope
    Zhang G.
    Feng J.
    Ma L.
    Wang Z.
    Zhongguo Guanxing Jishu Xuebao/Journal of Chinese Inertial Technology, 2021, 29 (06): : 809 - 814
  • [35] A compact, low loss and polarization insensitive fiber-optic gyroscope transceiver module configuration based on free-optic integration
    Zhou, Zhen
    Feng, Li-Shuang
    Liu, Hong-Du
    OPTIK, 2011, 122 (19): : 1689 - 1691
  • [36] Digital Interferometric Open Loop Phase Recovery in a Fiber Optic Gyroscope
    Sibley, Paul G.
    Wong, Justin
    Gray, Malcolm B.
    Chow, Jong H.
    Bandutunga, Chathura P.
    IEEE PHOTONICS JOURNAL, 2025, 17 (02):
  • [37] Mathematical models of light waves in Brillouin-scattering fiber-optic gyroscope resonator
    Wang Lihui
    Cao Min
    Liu Qingchan
    Wei Guangjin
    Li Bo
    Lin Cong
    OPTIK, 2015, 126 (21): : 2937 - 2940
  • [38] Research and Compensation of Frequency Response of LiNbO3 Phase Modulator for High-Performance Fiber-Optic Gyroscope
    Pogorelaya, Daria A.
    Aleynik, Artem S.
    Nikitenko, Alexander N.
    Smolovik, Mikhail A.
    Strigalev, Vladimir E.
    IEEE SENSORS JOURNAL, 2019, 19 (19) : 8733 - 8740
  • [39] Analysis of the Influence of Residual Intensity Modulation in the Multifunction Integrated Optic Circuit on Fiber-Optic Gyroscopes Performance
    Zhang, Chunxi
    Liu, Jiaqi
    Zhang, Zuchen
    Zheng, Yue
    Xu, Xiaobin
    Song, Jingming
    IEEE SENSORS JOURNAL, 2021, 21 (21) : 23903 - 23910
  • [40] High Precision Fiber-Optic Gyroscope Resolution Test Method Based on Low Precision Turntable
    Liu, Haiqiao
    Luo, Wei
    Lu, Jiazhen
    IEEE SENSORS JOURNAL, 2020, 20 (15) : 8656 - 8662
12345