V.A. Obukhovets scite author profile

V.A. Obukhovets

3Publications

21Citation Statements Received

43Citation Statements Given

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Affiliations

Southern Federal University, Taganrog State Pedagogical Institute, Saint Petersburg State Electrotechnical University

Publications

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Optimization of Airborne Antenna Geometry for Ocean Surface Scatterometric Measurements

et al. 2018

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We consider different antenna configurations, ranging from simple X-configuration to multi-beam star geometries, for airborne scatterometric measurements of the wind vector near the ocean surface. For all geometries, track-stabilized antenna configurations, as well as horizontal transmitter and receiver polarizations, are considered. The wind vector retrieval algorithm is generalized here for an arbitrary star geometry antenna configuration and tested using the Ku-Band geophysical model function. Using Monte Carlo simulations for the fixed total measurement time, we show explicitly that the relative wind speed estimation accuracy barely depends on the chosen antenna geometry, while the maximum wind direction retrieval error reduces moderately with increasing angular resolution, although at the cost of increased retrieval algorithm computational complexity, thus, limiting online analysis options with onboard equipment. Remarkably, the simplest X-configuration, while the simplest in terms of hardware implementation and computational time, appears an outlier, yielding considerably higher maximum retrieval errors when compared to all other configurations. We believe that our results are useful for the optimization of both hardware and software design for modern airborne scatterometric measurement systems based on tunable antenna arrays especially, those requiring online data processing.

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Sea Wind Measurement by Doppler Navigation System with X-Configured Beams in Rectilinear Flight

et al. 2017

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Abstract:We suggest a conceptual approach to the measurement of the near-surface wind vector over water using a Doppler navigation system, in addition to its standard navigation capabilities. We consider a Doppler navigation system with a track-stabilized antenna and x-configuration of its beams. For the measurement of the sea-surface wind, the system operates in the multi-beam scatterometer mode in rectilinear flight. The proposed conceptual design has been validated, and its accuracy for the wind vector measurement has been estimated using Monte Carlo computational simulations.

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<title>Plane spiraphase focusing lens</title>

Kasyanov

Obukhovets

2000

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V.A. Obukhovets

Optimization of Airborne Antenna Geometry for Ocean Surface Scatterometric Measurements

Sea Wind Measurement by Doppler Navigation System with X-Configured Beams in Rectilinear Flight

<title>Plane spiraphase focusing lens</title>

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