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Publications in Math-Net.Ru |
Citations |
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2019 |
| 1. |
A. S. Devyatisil'nyi, A. V. Shurygin, “Modeling the system of determination of the motion of a technological platform using GLONASS positioning and newtonometry data”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 45:18 (2019), 17–20   ; Tech. Phys. Lett., 45:9 (2019), 920–923 |
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2016 |
| 2. |
A. S. Devyatisil'nyi, “Model of a neural network inertial satellite navigation system capable of estimating the earth’s gravitational field gradient”, Zhurnal Tekhnicheskoi Fiziki, 86:9 (2016), 20–23 ; Tech. Phys., 61:9 (2016), 1299–1302 |
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2015 |
| 3. |
A. S. Devyatisil'nyi, “Neuromorphic expansion of the GLONASS onboard functions for a mobile technological platform”, Zhurnal Tekhnicheskoi Fiziki, 85:10 (2015), 5–8 ; Tech. Phys., 60:10 (2015), 1419–1422 |
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| 4. |
V. M. Grinyak, A. S. Devyatisilny, “Marine safety estimation expert system based on neural fuzzy logic network”, Probl. Upr., 2015, no. 4, 58–65 |
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2014 |
| 5. |
A. S. Devyatisil'nyi, “Inertial satellite neuromorphic system for estimation of the rotation parameters of a mobile technological platform”, Zhurnal Tekhnicheskoi Fiziki, 84:10 (2014), 6–9 ; Tech. Phys., 59:10 (2014), 1424–1427 |
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2013 |
| 6. |
A. S. Devyatisil'nyi, “Neural network correction of a vector gravitoinertial navigation system”, Zhurnal Tekhnicheskoi Fiziki, 83:12 (2013), 42–45 ; Tech. Phys., 58:12 (2013), 1745–1748 |
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| 7. |
A. S. Devyatisil'nyi, “System for neuromorphic estimation of rotation of a mobile technological platform”, Zhurnal Tekhnicheskoi Fiziki, 83:7 (2013), 16–19 ; Tech. Phys., 58:7 (2013), 946–949 |
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2012 |
| 8. |
A. S. Devyatisil'nyi, “Model of vector gravimetry based on a correctable two-component inertial navigation system”, Zhurnal Tekhnicheskoi Fiziki, 82:12 (2012), 123–125 ; Tech. Phys., 57:12 (2012), 1730–1732 |
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| 9. |
A. S. Devyatisil'nyi, “Model of a correctable inertial navigation system capable of determining the Earth’s gravitational field strength”, Zhurnal Tekhnicheskoi Fiziki, 82:1 (2012), 143–146 ; Tech. Phys., 57:1 (2012), 141–144 |
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2011 |
| 10. |
A. S. Devyatisil'nyi, “Application of the D’Alembert principle to the mobile gravimetry problem”, Zhurnal Tekhnicheskoi Fiziki, 81:3 (2011), 103–105 ; Tech. Phys., 56:3 (2011), 418–420 |
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2010 |
| 11. |
A. S. Devyatisil'nyi, K. A. Chislov, “The model of graviinertial system based on the princirle of D'Alamber interpretation”, Vestnik Samarskogo Gosudarstvennogo Universiteta. Estestvenno-Nauchnaya Seriya, 2010, no. 6(80), 8–13 |
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2007 |
| 12. |
A. S. Devyatisil'nyi, D. E. Kislov, “Pseudospectra and linear systems stability”, Probl. Upr., 2007, no. 5, 27–31 |
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2006 |
| 13. |
A. S. Devyatisil'nyi, K. A. Chislov, “On the problem of inertial navigator alignment on immovable mount under gravitational uncertainty”, Probl. Upr., 2006, no. 4, 54–58 |
| 14. |
A. S. Devyatisil'nyi, D. E. Kislov, “Solvability investigation for satellite orbit determination problem based on measurements”, Probl. Upr., 2006, no. 4, 50–53 |
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2002 |
| 15. |
A. S. Devyatisil'nyi, B. M. Dorozhko, V. M. Grinyak, “On the resistance force estimation of nonstable ship motion”, Dal'nevost. Mat. Zh., 3:2 (2002), 277–284 |
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| 16. |
A. S. Devyatisil'nyi, “On the inertial navigation with the absolute acceleration measurements”, Dal'nevost. Mat. Zh., 3:2 (2002), 227–230 |
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2000 |
| 17. |
A. S. Devyatisil'nyi, “On solvability of astrocorrection problems in light of kinematics representations about a navigation problem”, Dal'nevost. Mat. Zh., 1:1 (2000), 86–92 |
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