Abstract
Special features of a technology for seminatural development of software of strapdown inertial satellite navigation systems (SISNS) are considered. The implementation of this technology relies on modern recording equipment and provides software optimization over the actual signals and on a set of the algorithms under study. The system SINS-500 based on fiber-optic gyros is described as the object of seminatural development. The results of seminatural tests of the SINS-500 system are presented which corroborate that applying the proposed technology to create different-purpose custom designed SISNS is possible and expedient.
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Klimov, D.M., Inertsial’naya navigatsiya na more (Inertial Navigation at Sea), Moscow: Nauka, 1984.
Dorobantu, R. and Gerlach, Ch., Characterization and Evaluation of Navigation-Grade RLG SIMU, Eur. J. Navigation, 2004, vol. 2, no. 1, pp. 63–78.
Korkishko, Yu.N., Fedorov, V.A., Prilutskii, V.E., Ponomarev, V.G., Plotnikov, P.K., and Mikheyev, A.V., Experimental Research of FOG and Accelerometers and the Analysis of Their Parameters for SINS Error Prediction, Proc. of 15-th St. Petersburg International Conference on Integrated Navigation Systems, SPb: CSRI “Elektropribor”, 2008, pp. 81–88.
IEEE Std 647-1995. IEEE Standard Specification Format Guide and Test Procedure for Single-Axis Laser Gyros, IEEE Aerospace and Electronic Systems Society, USA.
IEEE Std 952-1997. IEEE Standard Specification Format Guide and Test Procedure for Single-Axis Interferometric Fiber Optic Gyros.
Kaspar, B. and Dahlen, N. Demonstration of the DARPA Global Positioning System Guidance Package on a U.S. NAVY F/A 18, Proc. of 5-th St. Petersburg International Conference on Integrated Navigation Systems, SPb: CSRI “Elektropribor”, 1998, pp. 372–376.
Blazhnov, B.A., Emelyantsev, G.I., Koshaev, D.A., Semenov, I.V., Stepanov, A.P., Zhilinsky, V.M., Korotkov, A.N., Timofeev. E.A., and Tsehanovich, G.S., A Tightly Coupled Integrated Satellite System of Attitude and Navigation, Proc. of 16-th St. Petersburg International Conference on Integrated Navigation Systems, SPb: CSRI “Elektropribor”, 2009, pp. 182–190.
Chernodarov, A.V. and Perelyaev, S.E., Monitoring and Estimation of the Inertial-Sensor Condition during Integrated Primary Processing of Signals, Proc. of 14-th St. Petersburg International Conference on Integrated Navigation Systems, SPb: CSRI “Elektropribor”, 2007, pp. 91–93.
Chernodarov, A.V., Patrikeev, A.P., Platonov, A.Yu., Budkin, V.L., Golikov, V.P. and Larionov, S.V., Parametric Identification of Integrated Navigation Systems in Real Time and from Flight Data, Giroskopiya i Navigatsiya, 2007, no. 4 (59), pp. 17–31.
Chernodarov, A.V., Patrikeev, A.P., Budkin, V.L., Golikov, V.P., and Larionov, S.V., Flight Development of Onboard Estimating Filters, Proc. of 11-th St. Petersburg International Conference on Integrated Navigation Systems, SPb: CSRI “Elektropribor”, 2004, pp. 27–35.
Chernodarov, A.V., Monitoring and Multilevel Protection of the Integrity of Tightly-Coupled Navigation Systems for Maneuverable Aircraft, Prepr. IFAC Workshop “Aerospace Guidance, Navigation and Flight Control Systems”, Samara, Russia, 2009, Sess. WeG-1.
Titterton, D.N. and Weston, J.L., Strapdown Inertial Navigation Technology, Second Edition. Progress in Astronautics and Aeronautics Series, 2004, vol. 207.
Babich, O.A., Obrabotka informatsii v navigatsionnykh kompleksakh (Data Processing in Navigation Complexes), Moscow: Mashinostroenie, 199.
Korkishko, Yu.N., Fedorov, V.A., Patrikeev, A.P., Chernodarov, A.V., and Perelyaev, S.E., An Object-Oriented Technology for the Integration of Navigation Sensors and its Implementation in the SINS-1000 Strapdown Inertial System Built Around Fiber-Optic-Gyros, Proc. of 16-th St. Petersburg International Conference on Integrated Navigation Systems, SPb: CSRI “Elektropribor”, 2009, pp. 18–27.
Brown, R.G. and Hartman, G.L., Kalman Filter with Delayed States as Observables, Proc. of the NAECON, vol. 24, pp. 66–72.
Kolodezny, L.P. and Chernodarov, A.V., Nadezhnost’ i tekhnicheskaya diagnostika (Reliability and Engineering Diagnostics), Moscow, Zhukovsky and Gagarin Air Force Academy, 2010.
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Chernodarov, A.V., Patrikeev, A.P., Korkishko, Y.N. et al. Software seminatural development for fog inertial satellite navigation system SINS-500. Gyroscopy Navig. 1, 330–340 (2010). https://doi.org/10.1134/S2075108710040152
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DOI: https://doi.org/10.1134/S2075108710040152