Begell House作者,编辑及审稿者

Stanislav I. Khomenko

A.Ya. Usikov Institute for Radiophysics and Electronics of the National Academy of Sciences of Ukraine 12, Academician Proskura St., Kharkiv 61085, Ukraine
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Articles

Statistical Model of Spatially-Time Backscatters from Floating Objects and Sea Surface in HF Range Vol. 31 '1999 - Journal of Automation and Information Sciences
Application of Ground-based and Air/Spaceborne Radars for Oil Spill Detection in Sea Areas Vol. 51 '1997 - Telecommunications and Radio Engineering
The paper presents results of measuring radar cross section (RCS) vs frequency dependences for wire-grid, lamellar and bulk models of small-size radar targets at decameter wavelengths in the case of ground-wave sounding. It has been shown that the RCS may Vol. 51 '1997 - Telecommunications and Radio Engineering
WAVE PROPAGATION AND SCATTERING: Experimental Investigation of Microwave -Frequency Radar Signals Scattered by the Sea Surface Vol. 51 '1997 - Telecommunications and Radio Engineering
Effect of the Proximity of the Decametric Waveband Antenna to an Agitated Sea Surface Vol. 52 '1998 - Telecommunications and Radio Engineering
Enhancing the Accuracy of Low-Altitude Target Elevation Measurements by Direction Finders of Sum-and-Difference Type Vol. 52 '1998 - Telecommunications and Radio Engineering
On Effects Which Can Be Used to Increase the RCS of Small-Sized Targets in an HF Band Vol. 52 '1998 - Telecommunications and Radio Engineering
On Ionospheric Clutter in Surface—Wave HF Radars Vol. 52 '1998 - Telecommunications and Radio Engineering
Coverage Range Prediction of the X-band Sea-Borne Navigational Radar Vol. 55 '2001 - Telecommunications and Radio Engineering
Diagnostics of Refractive Properties of the Atmospheric Surface Layer by Contact and Non-Contact Methods Vol. 55 '2001 - Telecommunications and Radio Engineering
The Space-and-Time Structure of Microwave Signals Propagating Above the Sea within the Optical Visibility Range Vol. 55 '2001 - Telecommunications and Radio Engineering
Coverage Range of Shipborne Centimeter Wave Navigation Radars: Regional Experimental Studies in the World Ocean Vol. 57 '2002 - Telecommunications and Radio Engineering
Peculiarities of UHF- and VHF-band Over-the-Horizon Location of Above-Water Objects in the Presence of Inversion Layers Vol. 57 '2002 - Telecommunications and Radio Engineering
Diagnostics of Microwave Propagation Conditions Through the use of Signal Reflection from Sea Surface Vol. 60 '2003 - Telecommunications and Radio Engineering
The Troposphere Refraction Estimation by Attenuation Factor of Radiowave beyond-the-Horizon Propagation Vol. 60 '2003 - Telecommunications and Radio Engineering
Experimental Study of Informative Indications of Echo-Signals from Surface Targets Vol. 61 '2004 - Telecommunications and Radio Engineering
An Ecologically Clean Over-the-Horizon Radar for Protection of Territorial Sea Waters Vol. 63 '2005 - Telecommunications and Radio Engineering
Simulation Statistical Model of Reflection from the “Clear-Sky” Vol. 63 '2005 - Telecommunications and Radio Engineering
The Atmospheric Refraction Influence upon the "Clear-Sky" Reflections Vol. 63 '2005 - Telecommunications and Radio Engineering
Use of Dielectrometry for Evaluation of Component Composition of Gas Mixtures Vol. 63 '2005 - Telecommunications and Radio Engineering
Using the Signals Reflected from Sea Surface for Prediction of Coverage Range of Marine Navigational Microwave Radars Vol. 63 '2005 - Telecommunications and Radio Engineering
Extraction of Instantaneous Frequencies from Time-Varying Bispectrum Estimates of Coherent Radar Echo Responses for Moving Objects Vol. 64 '2005 - Telecommunications and Radio Engineering
Some Results of Estimating Refractive Properties of the Troposphere with the use of Radio Emission from Geostationary Satellites Vol. 65 '2006 - Telecommunications and Radio Engineering
Investigation of Ultrashort Wave Attenuation in the Regions of the World Ocean Vol. 67 '2008 - Telecommunications and Radio Engineering
Use of Geostationary Satellite Radio Signals for Determining of Hydrometeor Parameters Vol. 67 '2008 - Telecommunications and Radio Engineering
WAVE PROPAGATION AND SCATTERING: Experimental Investigation into the Azimuthal Dependence of Oil Film Centimeter- and Millimeter-Radio Wave Backscattering Vol. 68 '2009 - Telecommunications and Radio Engineering
SOFTWARE AND HARDWARE COMPLEX FOR INVESTIGATION OF METEOROLOGICAL RADAR ECHO Vol. 69 '2010 - Telecommunications and Radio Engineering
USING OF THE SIGNALS SCATTERED FROM THE SEA SURFACE FOR DIAGNOSING OF CM-WAVE PROPAGATION Vol. 70 '2011 - Telecommunications and Radio Engineering
ANALYSIS OF REFRACTION PROPERTIES OF THE TROPOSPHERE USING A RADIO INTERFEROMETER Vol. 71 '2012 - Telecommunications and Radio Engineering
INVESTIGATION OF A PLASMA FORMATION STRUCTURE BY THE DOPPLER RADAR METHOD Vol. 71 '2012 - Telecommunications and Radio Engineering
REMOTE MEASUREMENT OF WATER DROP SIZES BY MEANS OF DOUBLE FREQUENCY SENSING Vol. 71 '2012 - Telecommunications and Radio Engineering
RESEARCH ON RADAR OBSERVABILITY OF ABOVE-WATER OBJECTS IN THE AREAS OF THE WORLD OCEAN Vol. 71 '2012 - Telecommunications and Radio Engineering
RADAR SOUNDING OF SMALL-SCALE TURBULENCE IN THE BOUNDARY LAYER OF ATMOSPHERE Vol. 72 '2013 - Telecommunications and Radio Engineering
USING NESTED SEMI-MARKOV PROCESSES FOR DESCRIPTION OF NON-STATIONARY SIGNALS AND FIELDS Vol. 72 '2013 - Telecommunications and Radio Engineering
INTERFEROMETRIC MEASURING COMPLEX FOR STUDY OF TROPOSPHERE REFRACTION WITH THE USE OF GEOSTATIONARY SATELLITE RADIATION Vol. 73 '2014 - Telecommunications and Radio Engineering
PROFILING OF CLOUD WATER CONTENT BY ACTIVE-PASSIVE SENSING Vol. 73 '2014 - Telecommunications and Radio Engineering
STUDY OF FLUCTUATIONS OF INCOHERENT SIGNALS REFLECTED FROM CLOUDS Vol. 75 '2016 - Telecommunications and Radio Engineering
RETRIEVAL OF VERTICAL PROFILE OF CLOUD WATER CONTENT USING ACTIVE-PASSIVE SENSING Vol. 76 '2017 - Telecommunications and Radio Engineering
BUILDING A PASSIVE-ACTIVE RADIO-METEOROLOGICAL MEASURING SYSTEM BASED ON DUAL-FREQUENCY RADAR Vol. 78 '2019 - Telecommunications and Radio Engineering