Search Results - "Dzhashitov, V. E."

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  1. 1

    Control of temperature fields of a strapdown inertial navigation system based on fiber optic gyroscopes by Dzhashitov, V. E., Pankratov, V. M.

    “…Theoretical and applied issues of creating a reversible control system of time-variant temperature fields of fiber optic gyroscopes and a strapdown inertial…”
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    Journal Article
  2. 2

    On the possibility of control of interconnected mechanical and thermal processes in nonlinear temperature-perturbed dynamic systems by Dzhashitov, V. E., Pankratov, V. M.

    “…The possibility of control of interconnected mechanical and thermal processes in nonlinear perturbed dynamic systems is considered both for irregular motions…”
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    Journal Article
  3. 3

    Using the method of elementary balances for analysis and synthesis of thermal control system for FOG SINS based on Peltier modules by Dzhashitov, V. E., Pankratov, V. M.

    Published in Gyroscopy and navigation (Online) (01-10-2014)
    “…The paper is devoted to analysis and synthesis of bidirectional thermal control system (TCS) of fiber-optic gyros (FOG) and FOG-based strapdown inertial…”
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    Journal Article
  4. 4

    Mathematical simulation of temperature field control of the strapdown inertial navigation system based on optical fiber sensors by Dzhashitov, V. E., Pankratov, V. M., Golikov, A. V.

    “…Mathematical models of an active double loop reversible temperature control system based on thermoelectric Peltier modules for controlling temperature fields…”
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    Journal Article
  5. 5

    Nonlinear dynamics of a gyroscopic trainer with variable kinetic torque by Dzhashitov, V. E., Pankratov, V. M.

    “…A nonlinear mathematical model has been developed for a specialized gyroscopic hand trainer used in medicine and sports, along with the corresponding software…”
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    Journal Article
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    Mathematical models of thermal stress-strain state and scale factor error of fiber optic gyro sensors by Dzhashitov, V. E., Pankratov, V. M., Barulina, M. A.

    “…Mathematical and finite-element models for thermal stress-strain state of the “reel-fiber coil” system precision fiber optic gyro sensor are constructed and…”
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    Journal Article
  7. 7

    Elastic suspension of a superminiature MEMS gyro by Dzhashitov, V. E., Pankratov, V. M.

    Published in Gyroscopy and navigation (Online) (01-10-2011)
    “…This paper considers a superminiature MEMS gyro with a volume of the sensor and suspension of less than 0.2 mm 3 . Mathematical models for calculating and…”
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    Journal Article
  8. 8

    The mathematical model and the way to choose elastic suspension parameters of a supersmall mechanical sensor of inertial information by Dzhashitov, V. E., Pankratov, V. M.

    “…The mathematical models for calculating and analyzing the frequency of self-excited oscillations of the distributed system “elastic suspension-sensitive…”
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    Journal Article
  9. 9

    Mathematical models of the thermoelastic stress-strain state, temperature, and technological errors of a wave solid-state sensor of inertial informations of Inertial Information by Dzhashitov, V. E., Pankratov, V. M.

    “…The related mathematical models of the thermal processes, thermoelastic stress-strain state, temperature, and technological errors of a wave solid-state sensor…”
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    Journal Article
  10. 10

    Hierarchical thermal models of FOG-based strapdown inertial navigation system by Dzhashitov, V. E., Pankratov, V. M., Golikov, A. V., Nikolaev, S. G., Kolevatov, A. P., Plonikov, A. D., Koffer, K. V.

    Published in Gyroscopy and navigation (Online) (2014)
    “…Hierarchical thermal models of strapdown inertial navigation system with fiber-optic gyros and accelerometers are constructed and studied. Thermal drift models…”
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    Journal Article
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    Reducing thermal sensitivity of fiber-optic gyros by Dzhashitov, V. E., Pankratov, V. M., Golikov, A. V., Gubanov, A. G., Efremov, M. V.

    Published in Gyroscopy and navigation (Online) (2012)
    “…The paper presents mathematical models for thermal processes of FOG-035 fiber-optic gyro. The models simulate space conditions of vacuum and weightlessness…”
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    Journal Article
  13. 13

    Mathematical model of a micromechanical accelerometer with temperature influences, dynamic effects, and the thermoelastic stress-strain state taken into account by Barulina, M. A., Dzhashitov, V. E., Pankratov, V. M., Kalinin, M. A., Papko, A. A.

    Published in Gyroscopy and navigation (Online) (2010)
    “…A comprehensive mathematical model of an accelerometer and its basic micromechanical sensing element is constructed that allows us to calculate and analyze the…”
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    Journal Article
  14. 14

    Mathematical simulation of three-dimensional nonstationary temperature fields under electron-beam or laser welding by a movable heat source by Dzhashitov, V. E., Pankratov, V. M., Golikov, A. V.

    “…The mathematical model describing the nonstationary heat processes occurring in three-dimensional (3D) plates under electron-beam or laser welding by movable…”
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    Journal Article
  15. 15

    Mathematical simulation of nonstationary thermal processes, the thermoelastic mode of deformation, and durability of a temperature probe under temperature shock by Barulina, M. A., Dzhashitov, V. E., Pankratov, V. M.

    “…Interrelated mathematical models of nonstationary thermal processes, the thermoelastic mode of deformation, and durability of a temperature probe are…”
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    Journal Article
  16. 16

    Mathematical Model of Dynamic Heat- and Mass-Exchange Processes in a Glassmaking Furnace by Dzhashitov, V. É., Pankratov, V. M., Golikov, A. V.

    “…Theoretical foundations have been developed and a mathematical model of dynamic heat- and mass-exchange processes in a glassmaking furnace has been…”
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    Journal Article
  17. 17

    Computer course in the applied theory of Gyros by Dzhashitov, V.E., Pankratov, V.M., Golikov, A.V.

    “…The fundamental methodical aspects and the gained practical experience of creating and using computer technologies in teaching the applied theory of gyroscopes…”
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    Magazine Article
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