Abstract
This paper presents the development and test results of a fiber-optic gyro of 0.01 deg/h accuracy grade designed at Concern CSRI Elektropribor, JSC, in cooperation with St. Petersburg State University of Information Technologies, Mechanics, and Optics. The problems regarding gyro accuracy, stability of output characteristics, drift compensation, dead-zone suppression, and the magnetic field effect are discussed.
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Peshekhonov, V.G., Nesenyuk, L.P., Starosel’tsev, L.P., Trends in the Development of Miniature Strapdown Inertial Measurement Units in the CSRI Elektropribor, Symp. Gyro Technol., 2000, Stuttgart, Germany.
Peshekhonov, V.G., Nesenyuk, L.P., Starosel’tsev, L.P., Modern Inertial Instruments for Navigation, Motion Control and Survey, Proc. 11th IAIN World Congr., 2003, October, Berlin, Germany.
Peshekhonov, V.G., Nesenyuk, L.P., Starosel’tsev, L.P., Strapdown Gyrocompass Trials with a Multiantenna GNSS Receiver Application, Symp. Gyro Technol., 2004, Stuttgart, Germany.
Volk, Ch., Lincoln, J., Tazartes, D., Northrop Grumman’s Family of Fiber-Optic Based Inertial Navigation Systems, PLANS 2006, April 25–27, San Diego, Calif.
Paturel, Y., Rumoroso, V., Chapelon, A., Honthaas, J., MARINS, the First FOG Navigation System for Submarines, Symp. Gyro Technol., 2006, Stuttgart, Germany.
Kolevatov, A.P., Nikolaev, S.G., Andreev, A.G., Ermakov, V.S., Dunaev, D.A., Kel’, O.L., Mal’gin, N.V., Development of a Dual Mode Attitude and Heading Reference System on Fiber-Optic Gyros for Land Vehicles, 13th St. Petersburg Int. Conf. on Integrated Navigation Systems, St. Petersburg: Elektropribor, 2006, pp. 348–356.
Ermakov V.S., et al., Tests of the Fiber-Optical Gyro Unit in the Structure of the NSI-2000MTF Integrated Navigation System, 14th St. Petersburg Int. Conf. on Integrated Navigation Systems, St. Petersburg: Elektropribor, 2007, pp. 133–137.
Korkishko, Yu.N., et al., Navigation-Grade Interferometric Fiber-Optic Gyroscope, 14th St. Petersburg Int. Conf. on Integrated Navigation Systems, St. Petersburg: Elektropribor, 2007, pp. 138–143.
Meshkovsky, I.K., Strigalev, V.I., Deineka, G.B., Peshekhonov, V.G., Nesenyuk, L.P., A Three-Axis Fiber-Optic Gyroscope for Marine Navigation Systems, 16th St. Petersburg Int. Conf. on Integrated Navigation Systems, St. Petersburg: Elektropribor, 2009, pp. 7–11.
Meshkovsky, I.K., Kiselev, S.S., Kulukov, A.V., Novikov, R.L., Wiring Defects of Optical Fiber at Manufacturing of the Sensitive Element of the Fiber-Optic Interferometer, Priborostroenie, 2010, no. 2, pp. 47–51.
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Meshkovsky, I.K., Strigalev, V.Y., Deineka, G.B. et al. Three-axis fiber-optic gyroscope: Development and test results. Gyroscopy Navig. 2, 208–213 (2011). https://doi.org/10.1134/S2075108711040122
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DOI: https://doi.org/10.1134/S2075108711040122