Search Results - "Shamanaeva, L. G."

Robust Parametric Estimates of Heterogeneous Experimental Data by Simakhin, V. A., Shamanaeva, L. G., Avdyushina, A. E.

“…In the present work, a weighted maximum likelihood method (WMLM) is proposed to obtain robust estimates of experimental data containing outliers. The method…”
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Robust Nonparametric Generators of Random Variables by Simakhin, V. A., Shamanaeva, L. G., Maer, A. V.

“…A method of constructing consistent and effective algorithms for robust nonparametric generators of random variables is considered for statistical simulation…”
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Spatiotemporal Dynamics of the Average and Turbulent Components of the Kinetic Wind Energy in the Lower Atmosphere from Minisodar Data by Potekaev, A. I., Shamanaeva, L. G., Krasnenko, N. P.

“…Based on post-processing of diurnal hourly measurements of three wind velocity components and their variances with an AV4000 minisodar in the lower 200-meter…”
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Robust Parametric Generators of Random Variables by Simakhin, V. A., Shamanaeva, L. G., Maer, A. V.

“…A method of constructing consistent and effective algorithms for robust parametric generators of random variables intended for solving problems of statistical…”
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Diurnal Dynamics of the Kinetic Energy in the Atmospheric Boundary Layer Retrieved from Minisodar Measurements by Potekaev, A. I., Shamanaeva, L. G., Kulagina, V. V.

“…Based on the results of postprocessing of minisodar measurements of three wind velocity components and their variances in the lower 200-meter layer of the…”
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Interdaily Variations of Three Wind Velocity Components Retrieved from Long-Term Continuous Minisodar Measurements in the ABL by Shamanaeva, L. G., Potekaev, A. I.

“…Statistical analysis of results of long-term continuous 8-day measurements of three components of wind velocity vector with a minisodar in the atmospheric…”
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Robust Semiparametric and Semi-Nonparametric Estimates of Inhomogeneous Experimental Data by Simakhin, V. A., Shamanaeva, L. G., Avdyushina, A. E.

“…A weighted maximum likelihood method (WMLM) of robust estimation of experimental data with outliers is proposed in this work. The method allows effective…”
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Dynamics of the Kinetic Energy in the Atmospheric Boundary Layer from the Results of Minisodar Measurements by Shamanaeva, L. G., Potekaev, A. I., Krasnenko, N. P., Kapegesheva, O. F.

“…Based on acoustic remote measurements of vertical profiles of three wind velocity components in a 200-meter boundary layer of the atmosphere, values of the…”
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Diurnal Dynamics of Standard Deviations of Three Wind Velocity Components in the Atmospheric Boundary Layer by Shamanaeva, L. G., Krasnenko, N. P., Kapegesheva, O. F.

“…Diurnal dynamics of the standard deviation (SD) of three wind velocity components measured with a minisodar in the atmospheric boundary layer is analyzed…”
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Experimental and Theoretical Investigations of the Near-Ground Propagation of Acoustic Radiation in the Atmosphere by Belov, V. V., Burkatovskaya, Yu. B., Krasnenko, N. P., Rakov, A. S., Rakov, D. S., Shamanaeva, L. G.

“…Near-ground propagation of monochromatic acoustic radiation at frequencies of 300, 1000, 2000, and 3150 Hz along atmospheric paths up to 100 m long is…”
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Adaptive Estimations of the Shift and Scale Parameters by Simakhin, V. A., Cherepanov, O. S., Shamanaeva, L. G.

“…New robust adaptive estimations (AE) of the shift and scale parameters are synthesized based on the weighted maximum likelihood method. The potential AE…”
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Sodar measurements of the structural characteristics of temperature fluctuations and the outer scale of turbulence by N. P. Krasnenko, L. G. Shamanaeva

“…Vertical profiles of the structural characteristics of temperature fluctuations C2T and the outer scale of turbulence L0 are evaluated from the data of…”
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Analysis of spectra of acoustic signals generated by high-power pulsed laser radiation propagating in the atmosphere. I. Spectra of local plasma formations by Shamanaev, S. V., Shamanaeva, L. G.

“…Results of theoretical and experimental investigations into the spectra of acoustic signals generated by high-power pulsed laser radiation propagating in the…”
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Theoretical estimates of sound scattering by atmospheric turbulence by BAIKALOVA, R. A, KREKOV, G. M, SHAMANAEVA, L. G

“…The coefficients of sound scattered by the temperature and wind fluctuations and common normalized scattering phase functions are computed using the von Karman…”
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Spatiotemporal Dynamics of the Wind Velocity from Minisodar Measurement Data by Simakhin, V. A., Cherepanov, O. S., Shamanaeva, L. G.

“…The spatiotemporal dynamics of the three wind velocity components in the atmospheric boundary layer is analyzed on the basis of Doppler minisodar measurements…”
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Spatiotemporal Dynamics of Wind Velocity from Mini-Sodar Measurements by Krasnenko, N. P., Tarasenkov, M. V., Shamanaeva, L. G.

“…Mini-sodar measurements of wind velocity profiles in the 20–200 m layer have demonstrated the high efficiency of the use of mini-sodars in monitoring the fine…”
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Spatiotemporal Dynamics of the Variance of the Wind Velocity from Mini-Sodar Measurements by Krasnenko, N. P., Kapegesheva, O. F., Tarasenkov, M. V., Shamanaeva, L. G.

“…Statistical trends of the spatiotemporal dynamics of the variance of the three wind velocity components in the atmospheric boundary layer have been established…”
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Spatiotemporal Dynamics of the Turbulent Kinetic Energy Dissipation Rate in the Lower Atmosphere by Krasnenko, N. P., Shamanaeva, L. G.

“…The spatiotemporal dynamics of the turbulent kinetic energy dissipation rate ε retrieved from sodar measurements is investigated. It is established that its…”
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Acoustic sounding of the thermal and velocity structure characteristics with allowance for the turbulent attenuation by Shamanaeva, L. G.

“…A method of simultaneous acoustic sounding of vertical profiles of the thermal and velocity structure parameters with allowance for the turbulent sound…”
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Influence of Impedance Properties of the earth’s Surface on Sound Attenuation During Near-Ground Propagation by Krasnenko, N. P., Rakov, A. S., Rakov, D. S., Shamanaeva, L. G.

“…We consider questions of the propagation of sound waves above the Earth’s surface. Formulas are given for the calculation of sound attenuation caused by the…”
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