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Krutova, Inessa Nikolaevna
Main Scientist Researcher
Doctor of technical sciences

https://www.mathnet.ru/eng/person60004
List of publications on Google Scholar
https://zbmath.org/authors/ai:krutova.i-n
https://mathscinet.ams.org/mathscinet/MRAuthorID/234680

Publications in Math-Net.Ru Citations
2016
1. V. M. Glumov, I. N. Krutova, V. M. Sukhanov, “Some Features of Powered Gyrostabilization of a Large Space Structure Assembled in Orbit”, Probl. Upr., 2016, no. 1,  82–89  mathnet; Automation and Remote Control, 79:3 (2018), 524–534 2
2013
2. I. N. Krutova, V. M. Sukhanov, “The comparative analysis of features of gyro-force control of large-scale spacecrafts for three algorithm types”, Probl. Upr., 2013, no. 4,  76–81  mathnet
2012
3. I. N. Krutova, V. M. Sukhanov, “Dynamics of gyro-force stabilization of large-scale spacecrafts with use of adjusted PD-algorithm of control”, Probl. Upr., 2012, no. 5,  74–80  mathnet 3
2011
4. I. N. Krutova, V. M. Sukhanov, “Adaptive algorithm of attitude control for informational large-scale satellites with changing parameters”, Probl. Upr., 2011, no. 5,  74–81  mathnet 2
2009
5. I. N. Krutova, V. M. Sukhanov, “Design of discrete control system of flexible spacecraft maintaining robust stability of elastic oscillations”, Avtomat. i Telemekh., 2009, no. 7,  25–36  mathnet  mathscinet  zmath; Autom. Remote Control, 70:7 (2009), 1109–1119  isi  scopus 3
6. I. N. Krutova, V. M. Sukhanov, “Design of modified PD algorithm to control angular motion of large space structure”, Avtomat. i Telemekh., 2009, no. 1,  39–50  mathnet  mathscinet  zmath; Autom. Remote Control, 70:1 (2009), 33–42  isi  scopus 5
2008
7. I. N. Krutova, V. M. Sukhanov, “Dynamic features of flexible spacecraft control in process of its transformation into a large space structure”, Avtomat. i Telemekh., 2008, no. 5,  41–56  mathnet  mathscinet  zmath; Autom. Remote Control, 69:5 (2008), 774–787  isi  scopus 3
2006
8. V. M. Glumov, I. N. Krutova, “Fuzzy logic-based design of the generalized adaptation algorithm for the discrete control system of flexible spacecraft”, Avtomat. i Telemekh., 2006, no. 6,  174–193  mathnet  mathscinet  zmath; Autom. Remote Control, 67:6 (2006), 989–1006  scopus 1
2005
9. V. M. Glumov, I. N. Krutova, V. M. Sukhanov, “A method of generating the trajectory of in-orbit assembly of large space structures using the algorithms of optimization on graphs”, Avtomat. i Telemekh., 2005, no. 9,  12–26  mathnet  mathscinet; Autom. Remote Control, 66:9 (2005), 1371–1383  scopus 1
2004
10. V. M. Glumov, I. N. Krutova, V. M. Sukhanov, “Fuzzy logic-based adaptive control system for in-orbit assembly of large space structures”, Avtomat. i Telemekh., 2004, no. 10,  109–127  mathnet  mathscinet  zmath; Autom. Remote Control, 65:10 (2004), 1618–1634  isi  scopus 10
2003
11. V. M. Glumov, I. N. Krutova, V. M. Sukhanov, “A Method of Constructing the Mathematical Model of a Discretely Developing Large Space Structure”, Avtomat. i Telemekh., 2003, no. 10,  15–33  mathnet  zmath; Autom. Remote Control, 64:10 (2003), 1527–1543  isi  scopus 10
2002
12. V. M. Glumov, I. N. Krutova, “A Fuzzy Logic Adaptation Circuit for Control Systems of Deformable Space Vehicles: Its Design”, Avtomat. i Telemekh., 2002, no. 7,  76–91  mathnet  mathscinet  zmath; Autom. Remote Control, 63:7 (2002), 1109–1122  isi  scopus 4
2001
13. I. N. Krutova, “Stability Analysis of a Distorting Spacecraft Having Discrete Control System”, Avtomat. i Telemekh., 2001, no. 12,  40–54  mathnet  mathscinet  zmath; Autom. Remote Control, 62:12 (2001), 1964–1977  isi  scopus 10
1999
14. I. N. Krutova, “On the stability of a spacecraft with regard for its elastic oscillations”, Avtomat. i Telemekh., 1999, no. 7,  44–58  mathnet  zmath; Autom. Remote Control, 60:7 (1999), 941–952  isi 3
15. I. N. Krutova, “Study of stabilization of the multidimensional dynamic system with relay control”, Avtomat. i Telemekh., 1999, no. 4,  27–43  mathnet  mathscinet; Autom. Remote Control, 60:4 (1999), 512–524  isi
1998
16. I. N. Krutova, “Generation of an algorithm for the control of the iterative process of parameter adjustment in a system with a simplified reference model”, Avtomat. i Telemekh., 1998, no. 2,  72–84  mathnet  mathscinet  zmath; Autom. Remote Control, 59:2 (1998), 213–223 1
1997
17. I. N. Krutova, “The Use of a Simplified Reference Model in Tuning Control Parameters by the Adaptive Identification Method”, Avtomat. i Telemekh., 1997, no. 11,  131–144  mathnet  mathscinet  zmath; Autom. Remote Control, 58:11 (1997), 1806–1816
18. V. M. Glumov, I. N. Krutova, “Synthesis of a Control Algorithm for Iterative Tuning Parameters of a Dynamic System”, Avtomat. i Telemekh., 1997, no. 5,  12–27  mathnet  mathscinet  zmath; Autom. Remote Control, 58:5 (1997), 722–734
1996
19. V. M. Glumov, S. D. Zemlyakov, A. V. Karibskii, I. N. Krutova, V. Yu. Rutkovskii, A. D. Tsvirkun, “Constructing the General Scheme of a Departmental Management System”, Avtomat. i Telemekh., 1996, no. 12,  124–144  mathnet  zmath; Autom. Remote Control, 57:12 (1996), 1794–1806
20. I. N. Krutova, “Realization of Adjustable Properties of Aircraft Control Systems by the Method of Adaptive Identification”, Avtomat. i Telemekh., 1996, no. 3,  103–116  mathnet  zmath; Autom. Remote Control, 57:3 (1996), 385–395
1995
21. I. N. Krutova, “Parametric optimization of control algorithms by adaptive identification”, Avtomat. i Telemekh., 1995, no. 10,  107–120  mathnet  mathscinet  zmath; Autom. Remote Control, 56:10 (1995), 1444–1454
1991
22. I. N. Krutova, V. Yu. Rutkovskiĭ, “Robustness of control systems with nonlinear parametric correction to some forms of disturbances”, Avtomat. i Telemekh., 1991, no. 9,  145–159  mathnet  mathscinet  zmath; Autom. Remote Control, 52:9 (1991), 1293–1303 2
1986
23. I. N. Krutova, “New aspects of dynamics of adaptive control systems with a reference model. II”, Avtomat. i Telemekh., 1986, no. 6,  107–119  mathnet  mathscinet  zmath; Autom. Remote Control, 47:6 (1986), 828–838
24. I. N. Krutova, “New aspects of the dynamics of an adaptive control system with a standard model. I”, Avtomat. i Telemekh., 1986, no. 5,  70–81  mathnet  mathscinet  zmath; Autom. Remote Control, 47:5 (1986), 649–659
1982
25. I. N. Krutova, “Investigation of identification processes with the use of a parametric linearized model”, Avtomat. i Telemekh., 1982, no. 11,  81–90  mathnet  zmath; Autom. Remote Control, 43:11 (1982), 1431–1439
26. I. N. Krutova, “The structure of a plant parameter identifier for an adaptive system from the class of nonsearching self adjusting systems”, Avtomat. i Telemekh., 1982, no. 5,  127–137  mathnet  zmath; Autom. Remote Control, 43:5 (1982), 679–688
1978
27. V. S. Kosikov, I. N. Krutova, B. V. Pavlov, V. Yu. Rutkovskii, “Structural investigation of self-adjusting systems”, Avtomat. i Telemekh., 1978, no. 12,  89–97  mathnet  zmath; Autom. Remote Control, 39:12 (1979), 1809–1815
1976
28. V. S. Kosikov, I. N. Krutova, B. V. Pavlov, “A linear model of an NSAS with the frequency response monitored”, Avtomat. i Telemekh., 1976, no. 7,  68–75  mathnet  zmath; Autom. Remote Control, 37:7 (1976), 1032–1039
29. V. S. Kosikov, I. N. Krutova, B. V. Pavlov, “Design of linear models of nonsearching self-adjusting systems. II. Linear models of NSAS”, Avtomat. i Telemekh., 1976, no. 2,  116–130  mathnet  mathscinet  zmath; Autom. Remote Control, 37:2 (1976), 225–237
30. V. S. Kosikov, I. N. Krutova, B. V. Pavlov, “Design of linear models for nonsearching self-adjucting systems. I. Linearized equations of NSAS”, Avtomat. i Telemekh., 1976, no. 1,  106–116  mathnet  mathscinet  zmath; Autom. Remote Control, 37:1 (1976), 49–57

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