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Khlebnikov Mikhail Vladimirovich

Publications in Math-Net.Ru

  1. Suppressing exogenous disturbances in a discrete-time control system as an optimization problem

    Avtomat. i Telemekh., 2023, no. 10,  104–117
  2. PI controller design for suppressing exogenous disturbances

    Avtomat. i Telemekh., 2023, no. 8,  3–23
  3. A comparison of guaranteeing and Kalman filters

    Avtomat. i Telemekh., 2023, no. 4,  64–95
  4. Aircraft cruise altitude and speed profile optimization in a real atmosphere

    Avtomat. i Telemekh., 2023, no. 4,  3–18
  5. Peak-minimizing design for linear control systems with exogenous disturbances and structured matrix uncertainties

    Probl. Upr., 2023, no. 3,  12–19
  6. Optimization of aircraft fuel consumption during the climb phase

    Avtomat. i Telemekh., 2022, no. 11,  83–102
  7. New criteria for tuning PID controllers

    Avtomat. i Telemekh., 2022, no. 11,  62–82
  8. Observer-aided output feedback synthesis as an optimization problem

    Avtomat. i Telemekh., 2022, no. 3,  7–32
  9. Sparse filtering under bounded exogenous disturbances

    Avtomat. i Telemekh., 2022, no. 2,  35–50
  10. Upper bounds on trajectory deviations for an affine family of discrete-time systems under exogenous disturbances

    Probl. Upr., 2022, no. 4,  15–20
  11. Static controller synthesis for peak-to-peak gain minimization as an optimization problem

    Avtomat. i Telemekh., 2021, no. 9,  86–115
  12. Optimization of the altitude and speed profile of the aircraft cruise with fixed arrival time

    Avtomat. i Telemekh., 2021, no. 7,  69–85
  13. Linear matrix inequalities in control systems with uncertainty

    Avtomat. i Telemekh., 2021, no. 1,  3–54
  14. A parametric Lyapunov function for discrete-time control systems with bounded exogenous disturbances: analysis

    Probl. Upr., 2021, no. 4,  21–26
  15. Optimization of bilinear control systems subjected to exogenous disturbances. III. Robust formulations

    Avtomat. i Telemekh., 2020, no. 6,  47–61
  16. Robust stability conditions for a family of linear discrete-time systems subjected to uncertainties

    Probl. Upr., 2020, no. 5,  17–21
  17. Linear quadratic regulator: II. Robust formulations

    Avtomat. i Telemekh., 2019, no. 10,  115–131
  18. Optimization of bilinear control systems subjected to exogenous disturbances. II. Design

    Avtomat. i Telemekh., 2019, no. 8,  29–43
  19. Optimization of bilinear systems subjected to exogenous disturbances. I. Analysis

    Avtomat. i Telemekh., 2019, no. 2,  46–63
  20. Upper bounds of the deviations in linear dynamical system with bounded disturbances

    Probl. Upr., 2019, no. 3,  16–21
  21. Upper bounds of large deviations in linear discrete-time systems: the robust statement

    UBS, 77 (2019),  70–84
  22. Quadratic stabilization of discrete-time bilinear control system

    Avtomat. i Telemekh., 2018, no. 7,  59–79
  23. Upper estimates of large deviations in linear systems in presence of uncertaint

    Probl. Upr., 2018, no. 3,  2–7
  24. An approach to tracking problem for linear control system via invariant ellipsoids method

    UBS, 71 (2018),  45–60
  25. Quadratic stabilization of bilinear systems: linear dynamical output feedback

    Avtomat. i Telemekh., 2017, no. 9,  3–18
  26. Principle component analysis: robust versions

    Avtomat. i Telemekh., 2017, no. 3,  130–148
  27. Feedback design for linear control system with disturbance in both input and output: robust statement

    Probl. Upr., 2017, no. 3,  11–16
  28. Control of linear systems subjected to exogenous disturbances: combined feedback

    Avtomat. i Telemekh., 2016, no. 7,  20–32
  29. Quadratic stabilization of bilinear control systems

    Avtomat. i Telemekh., 2016, no. 6,  47–60
  30. Linear-quadratic regulator. I. A new solution

    Avtomat. i Telemekh., 2015, no. 12,  65–79
  31. Large deviations in linear control systems with nonzero initial conditions

    Avtomat. i Telemekh., 2015, no. 6,  18–41
  32. Invariance and nonfragility in the rejection of exogenous disturbances

    Avtomat. i Telemekh., 2015, no. 5,  175–190
  33. Estimates of the attraction domain of linear systems under $L_2$-bounded control

    Avtomat. i Telemekh., 2015, no. 3,  3–12
  34. Sparse feedback in linear control systems

    Avtomat. i Telemekh., 2014, no. 12,  13–27
  35. New generalizations of the Petersen lemma

    Avtomat. i Telemekh., 2014, no. 5,  137–142
  36. Optimal feedback design under bounded control

    Avtomat. i Telemekh., 2014, no. 2,  177–192
  37. Settling time in a linear dynamic system with bounded external disturbances

    Avtomat. i Telemekh., 2012, no. 6,  3–17
  38. Optimization of linear systems subject to bounded exogenous disturbances: The invariant ellipsoid technique

    Avtomat. i Telemekh., 2011, no. 11,  9–59
  39. Suppression of bounded exogenous disturbances: A linear dynamic output controller

    Avtomat. i Telemekh., 2011, no. 4,  27–42
  40. A nonfragile controller for suppressing exogenous disturbances

    Avtomat. i Telemekh., 2010, no. 4,  106–119
  41. Robust filtering under nonrandom disturbances: The invariant ellipsoid approach

    Avtomat. i Telemekh., 2009, no. 1,  147–161
  42. Petersen's lemma on matrix uncertainty and its generalizations

    Avtomat. i Telemekh., 2008, no. 11,  125–139
  43. Suppression of bounded exogenous disturbances: Output feedback

    Avtomat. i Telemekh., 2008, no. 5,  72–90
  44. Rejection of bounded exogenous disturbances by the method of invariant ellipsoids

    Avtomat. i Telemekh., 2007, no. 3,  106–125
  45. A class of $\mu$-commutative bilinear control systems

    Avtomat. i Telemekh., 2006, no. 6,  113–125
  46. Sufficient conditions for nesting the reachable sets of two smooth control systems of constant rank and linear in phase variables

    Avtomat. i Telemekh., 2005, no. 12,  114–124
  47. On a Multidimensional Boundary Value Problem

    Differ. Uravn., 41:5 (2005),  713–716
  48. Convexity of reachable sets of a smooth linear control system in phase variables

    Avtomat. i Telemekh., 2004, no. 11,  79–85
  49. On the Existence of an Optimal Control in a Nonlinear Minimum Time Problem

    Differ. Uravn., 40:2 (2004),  177–182
  50. The Reachable Set of a Quasi-Commutative Bilinear System: Its Convexity

    Avtomat. i Telemekh., 2003, no. 8,  44–53
  51. A Nonlinear Time-Optimal Control Problem

    Avtomat. i Telemekh., 2002, no. 7,  24–32
  52. On the Construction of the Minimizing Sequence of Controls in the Nonstationary Problem of Optimal Response

    Avtomat. i Telemekh., 2001, no. 8,  56–60
  53. On the approximation of a nonstationary bilinear problem of the optimal control of a sequence of stationary bilinear problems

    Avtomat. i Telemekh., 1999, no. 9,  36–46
  54. On a nonstationary bilinear time-optimality problem

    Avtomat. i Telemekh., 1998, no. 7,  43–54

  55. Boris Teodorovich Polyak (1935–2023)

    Avtomat. i Telemekh., 2023, no. 4,  166–168
  56. Boris Teodorovich Polyak (04.05.1935 – 03.02.2023)

    Vestnik YuUrGU. Ser. Mat. Model. Progr., 16:1 (2023),  123
  57. Erratum to: Observer-aided output feedback synthesis as an optimization problem

    Avtomat. i Telemekh., 2022, no. 11,  167–168
  58. From far away the river flows $\dots$

    Avtomat. i Telemekh., 2015, no. 5,  3–6

© Steklov Math. Inst. of RAS, 2024