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Sukhanov, Viktor Min'onovich

Statistics Math-Net.Ru
Total publications: 44
Scientific articles: 44

Number of views:
This page:364
Abstract pages:8156
Full texts:3057
References:954
Main Scientist Researcher
Doctor of technical sciences
E-mail:

http://www.mathnet.ru/eng/person57720
List of publications on Google Scholar
http://zbmath.org/authors/?q=ai:sukhanov.v-m
https://mathscinet.ams.org/mathscinet/MRAuthorID/328246

Publications in Math-Net.Ru
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, 1,  82–89  mathnet; Autom. Remote Control, 79:3 (2018), 524–534
2015
2. V. M. Sukhanov, A. V. Silaev, V. M. Glumov, “Dynamic equations of free-flying space robot for feedback control tasks”, Avtomat. i Telemekh., 2015, 8,  153–164  mathnet  elib; Autom. Remote Control, 76:8 (2015), 1446–1454  isi  elib  scopus
2014
3. V. M. Sukhanov, V. Yu. Rutkovskii, V. M. Glumov, “Determination of workspace and required initial position of free-flying space manipulator at target capture”, Avtomat. i Telemekh., 2014, 11,  150–159  mathnet; Autom. Remote Control, 75:11 (2014), 2014–2022  isi  scopus
2013
4. V. Yu. Rutkovskii, V. M. Sukhanov, V. M. Glumov, “Some issues of controlling the free-flying manipulative space robot”, Avtomat. i Telemekh., 2013, 11,  62–83  mathnet; Autom. Remote Control, 74:11 (2013), 1820–1837  isi  scopus
5. V. Yu. Rutkovskii, V. M. Sukhanov, V. M. Glumov, “Stabilization of low-frequency vibrations of a large satellite structure with powered gyro control”, Avtomat. i Telemekh., 2013, 3,  120–135  mathnet  zmath; Autom. Remote Control, 74:3 (2013), 413–425  isi  scopus
6. 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, 4,  76–81  mathnet
2012
7. V. Yu. Rutkovskii, V. M. Sukhanov, V. M. Glumov, “Combined relay-adaptive control of flexible spacecraft orientation”, Avtomat. i Telemekh., 2012, 12,  124–136  mathnet  zmath  elib; Autom. Remote Control, 73:12 (2012), 2049–2058  isi
8. 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, 5,  74–80  mathnet
2011
9. V. Yu. Rutkovskii, V. M. Sukhanov, V. M. Glumov, “Using adaptation methods to stabilize elastic oscillations of large variable-parameter satellites”, Avtomat. i Telemekh., 2011, 12,  91–103  mathnet  mathscinet  zmath; Autom. Remote Control, 72:12 (2011), 2505–2515  isi  scopus
10. V. Yu. Rutkovskii, V. M. Glumov, V. M. Sukhanov, “Physically realizable reference model-based algorithm of adaptive control”, Avtomat. i Telemekh., 2011, 8,  96–108  mathnet  mathscinet  zmath; Autom. Remote Control, 72:8 (2011), 1667–1678  isi  scopus
11. V. Yu. Rutkovsky, V. M. Glumov, V. M. Sukhanov, “High-precision control of nonstationary aircrafts by roll angle”, Probl. Upr., 2011, 5,  82–87  mathnet; Autom. Remote Control, 74:5 (2013), 875–884  isi
12. I. N. Krutova, V. M. Sukhanov, “Adaptive algorithm of attitude control for informational large-scale satellites with changing parameters”, Probl. Upr., 2011, 5,  74–81  mathnet
2010
13. V. Yu. Rutkovskii, V. M. Sukhanov, V. M. Glumov, “Control of multimode manipulative space robot in outer space”, Avtomat. i Telemekh., 2010, 11,  96–111  mathnet  mathscinet  zmath; Autom. Remote Control, 71:11 (2010), 2345–2359  isi  scopus
14. V. Yu. Rutkovskii, V. M. Sukhanov, V. M. Glumov, “Motion equations and control of the free-flying space manipulator in the reconfiguration mode”, Avtomat. i Telemekh., 2010, 1,  80–98  mathnet  mathscinet  zmath; Autom. Remote Control, 71:1 (2010), 70–86  isi  scopus
2009
15. I. N. Krutova, V. M. Sukhanov, “Design of discrete control system of flexible spacecraft maintaining robust stability of elastic oscillations”, Avtomat. i Telemekh., 2009, 7,  25–36  mathnet  mathscinet  zmath; Autom. Remote Control, 70:7 (2009), 1109–1119  isi  scopus
16. I. N. Krutova, V. M. Sukhanov, “Design of modified PD algorithm to control angular motion of large space structure”, Avtomat. i Telemekh., 2009, 1,  39–50  mathnet  mathscinet  zmath; Autom. Remote Control, 70:1 (2009), 33–42  isi  scopus
2008
17. A. S. Ermilov, T. V. Ermilova, V. Yu. Rutkovskii, V. M. Sukhanov, “Two-level orientation control system of flexible spacecraft with active stabilization of structural elastic oscillations”, Avtomat. i Telemekh., 2008, 6,  26–40  mathnet  mathscinet  zmath; Autom. Remote Control, 69:6 (2008), 929–941  isi  scopus
18. 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, 5,  41–56  mathnet  mathscinet  zmath; Autom. Remote Control, 69:5 (2008), 774–787  isi  scopus
2007
19. V. M. Glumov, V. Yu. Rutkovskii, V. M. Sukhanov, “Formation of the control strategy for the large space structure assembled in orbit”, Avtomat. i Telemekh., 2007, 12,  21–37  mathnet  mathscinet  zmath; Autom. Remote Control, 68:12 (2007), 2113–2127  scopus
20. V. Yu. Rutkovskii, V. M. Sukhanov, “Using the method of phase biplane to study dynamics of interactions of the elastic structural oscillations of the flexible spacecraft with the control system”, Avtomat. i Telemekh., 2007, 2,  49–62  mathnet  mathscinet  zmath; Autom. Remote Control, 68:2 (2007), 254–266  scopus
2006
21. V. M. Glumov, V. Yu. Rutkovskii, V. M. Sukhanov, “Methods of intelligent diagnosis for control of flexible moving craft”, Avtomat. i Telemekh., 2006, 12,  3–20  mathnet  mathscinet  zmath; Autom. Remote Control, 67:12 (2006), 1863–1877  scopus
22. S. D. Zemlyakov, V. Yu. Rutkovskii, V. M. Sukhanov, “Some questions of control of the robotized in-orbit assembly of large space structures”, Avtomat. i Telemekh., 2006, 8,  36–50  mathnet  mathscinet  zmath; Autom. Remote Control, 67:8 (2006), 1215–1227  scopus
23. V. M. Glumov, S. D. Zemlyakov, V. Yu. Rutkovskii, V. M. Sukhanov, “Computer-aided on-line development and derivation of the motion equation of space module”, Avtomat. i Telemekh., 2006, 1,  89–116  mathnet  mathscinet  zmath; Autom. Remote Control, 67:1 (2006), 78–104  scopus
2005
24. 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, 9,  12–26  mathnet  mathscinet; Autom. Remote Control, 66:9 (2005), 1371–1383  scopus
25. V. M. Glumov, S. D. Zemlyakov, V. Yu. Rutkovskii, V. M. Sukhanov, “Some features of the computer-aided derivation of the motion equations of a package of mechanical systems and their decomposition”, Avtomat. i Telemekh., 2005, 5,  83–96  mathnet  mathscinet  zmath; Autom. Remote Control, 66:5 (2005), 752–764  scopus
26. V. G. Borisov, A. S. Ermilov, T. V. Ermilova, V. M. Sukhanov, “Control of the angular motion of a semiactive bundle of bodies relying on the estimates of nonmeasurable coordinated obtained by Kalman filtration methods”, Avtomat. i Telemekh., 2005, 4,  156–169  mathnet  mathscinet  zmath; Autom. Remote Control, 66:4 (2005), 646–657  scopus
27. V. M. Sukhanov, E. M. Firsova, “Adaptive decomposing control algorithms for semiactive bundles of mechanical systems”, Probl. Upr., 2005, 3,  66–71  mathnet
2004
28. 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, 10,  109–127  mathnet  mathscinet  zmath; Autom. Remote Control, 65:10 (2004), 1618–1634  isi  scopus
2003
29. 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, 10,  15–33  mathnet  zmath; Autom. Remote Control, 64:10 (2003), 1527–1543  isi  scopus
30. V. M. Glumov, S. D. Zemlyakov, V. Yu. Rutkovskii, V. M. Sukhanov, “Application of the Principle of Design of Adaptive Systems with a Reference Model to Problems of Monitoring of a Current State of Transmission Shafts”, Avtomat. i Telemekh., 2003, 5,  131–146  mathnet  mathscinet  zmath; Autom. Remote Control, 64:5 (2003), 791–805  isi  scopus
31. V. Yu. Rutkovskii, S. D. Zemlyakov, V. M. Sukhanov, V. M. Glumov, “New directions of adaptive coordinate-parametric control theory and applications”, Probl. Upr., 2003, 2,  2–10  mathnet
2002
32. V. G. Borisov, A. S. Ermilov, T. V. Ermilova, V. M. Sukhanov, “Joint Estimation of the Motion Coordinates and Parameters of the Robotic Space Module and Transferred Elastic Load”, Avtomat. i Telemekh., 2002, 11,  88–102  mathnet  zmath; Autom. Remote Control, 63:11 (2002), 1775–1788  isi  scopus
33. V. M. Glumov, S. D. Zemlyakov, V. Yu. Rutkovskii, V. M. Sukhanov, “On Technical Controllability and Decomposition of the Lagrangian Systems with Bounded Controls”, Avtomat. i Telemekh., 2002, 10,  13–33  mathnet  mathscinet  zmath; Autom. Remote Control, 63:10 (2002), 1546–1564  isi  scopus
34. A. V. Silaev, V. M. Sukhanov, “Methods of Estimating the Envelope of Elastic Oscillations of the Flexible Spacecraft”, Avtomat. i Telemekh., 2002, 4,  76–90  mathnet  mathscinet  zmath; Autom. Remote Control, 63:4 (2002), 587–600  isi  scopus
2001
35. V. M. Glumov, S. D. Zemlyakov, V. Yu. Rutkovskii, V. M. Sukhanov, “Angular Motion Control of a Space Robot Engineering Module During Transportation of a Nonrigid Load”, Avtomat. i Telemekh., 2001, 11,  121–135  mathnet  zmath; Autom. Remote Control, 62:11 (2001), 1868–1880  isi  scopus
36. V. M. Glumov, S. D. Zemlyakov, V. Yu. Rutkovskii, V. M. Sukhanov, “Technical Controllability of the Free-flying Automated Space Module”, Avtomat. i Telemekh., 2001, 3,  31–44  mathnet  zmath; Autom. Remote Control, 62:3 (2001), 370–382  isi  scopus
2000
37. V. Yu. Rutkovskiĭ, V. M. Sukhanov, “A dynamic model of a free-flying space robot engineering module”, Avtomat. i Telemekh., 2000, 5,  39–57  mathnet  zmath; Autom. Remote Control, 61:5 (2000), 749–767
1999
38. V. M. Glumov, V. Yu. Rutkovskii, V. M. Sukhanov, “Adaptive and robust systems - Adaptive control of orientation of flexible spacecraft with variable parameters”, Avtomat. i Telemekh., 1999, 4,  90–102  mathnet; Autom. Remote Control, 60:4 (1999), 564–574  isi
1998
39. V. M. Glumov, S. D. Zemlyakov, V. Yu. Rutkovskii, V. M. Sukhanov, “Spatial angular motion of a flexible spacecraft: the modal-physical model and its characteristics”, Avtomat. i Telemekh., 1998, 12,  38–50  mathnet  zmath; Autom. Remote Control, 59:12 (1998), 1728–1738
40. V. P. Bogomolov, V. Yu. Rutkovskiĭ, V. M. Sukhanov, “Design of an optimal mechanical structure of a free-flying space robotic module as a control object. II”, Avtomat. i Telemekh., 1998, 6,  75–88  mathnet  zmath; Autom. Remote Control, 59:6 (1998), 814–824
41. V. P. Bogomolov, V. Yu. Rutkovskiĭ, V. M. Sukhanov, “Design of an optimal mechanical structure of a free-flying space robotic module as a control object. I”, Avtomat. i Telemekh., 1998, 5,  27–40  mathnet  zmath; Autom. Remote Control, 59:5 (1998), 632–642
1996
42. V. Yu. Rutkovskii, V. M. Sukhanov, “Large Space Constructions: Models, Research Methods, Control Principles. II”, Avtomat. i Telemekh., 1996, 8,  55–66  mathnet  mathscinet  zmath; Autom. Remote Control, 57:8 (1996), 1108–1117
43. V. Yu. Rutkovskii, V. M. Sukhanov, “Large Space Constructions: Models, Research Methods, Control Principles. I”, Avtomat. i Telemekh., 1996, 7,  52–65  mathnet  mathscinet  zmath; Autom. Remote Control, 57:7 (1996), 953–963
1992
44. Yu. I. Nekhoroshiĭ, V. Yu. Rutkovskiĭ, V. M. Sukhanov, “Parameter identification of a modal-physical model of a deformable spaceship”, Avtomat. i Telemekh., 1992, 7,  19–25  mathnet  mathscinet  zmath; Autom. Remote Control, 53:7 (1992), 966–971

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