TELECOMMUNICATIONS AND RADIO ENGINEERING - 2009 Vol. 68,
No 4 		 

 

 

 

Network of Complete Ground Support of Space-Borne Synthetic Aperture Radars

L.M. Atroshenko
Scientific production company «KV-A-NT», 244, Druzhby Narodov Str., Kharkiv, 61183, Ukraine

N.N. Gorobetz and L.P. Safronova
V. Karazin National University of Kharkiv, 4, Svoboda Sq., Kharkiv, 61077, Ukraine

S.I. Kostyashkin
Kharkiv State Forest Management Expedition, 11, Zheleznodorozhnaya Str., Pokotilovka village, Kharkiv region, 62458, Ukraine

Abstract
The paper presents a review of a network of 16 subsatellite proving grounds in Ukraine, with the emphasis on their capacity of the remote sensing of terrestrial covers from space by means of synthetic aperture radars (SAR).

References

  1. Atroshenko, L.M., Gaikovich, K.P., and Gorobetz, N.N., (2008), Specific features of forest eigen radiation generation, Visn. Khark. Naz. Un-tu. Radiofizika and Elektronika. 12:35-41 (in Russian).
  2. Atroshenko, L.M., Biryukov, A.G., Gorobetz, N.N., and Yavorsky, Y.A., (1993), Ground support of active and passive aerospace systems of the remote sensing of Earth in radio range, Ukr. Astron. Asots.iInform. Byul. 4:43-44 (in Russian).
  3. Atroshenko, L.M., and Gorobetz, N.N., (2004), Promising trends of radar application in forest assessment and estimation of anthropogenic forest pollution, Visn. Khark. Naz. Un-tu. Radiofizika and Elektronika. 1:132-136 (in Russian).
  4. Atroshenko, L.M., Gorobetz, N.N., and Safronova, L.P., (2004), Application of data received from a synthetic-aperture radar in the land inventory and crops condition diagnosis, Visn. Khark. Naz. Agrarn. Un-tu. 6:188-194 (in Russian).
  5. Atroshenko, L.M., Gorobetz, N.N., and Safronova, L.P., (2007), Reliability improvement of harvest forecast made by the satellite radar high-resolution images, Proceeding 5-thConf. “Modern problems of Earth remote sensing from space”, Moscow, p.14 (in Russian).
  6. Atroshenko, L.M., Gorobets, N.N., and Safronova, L.P., (2006), Application of Synthetic-Aperture Radar (SAR) Data in Tackling the Problems of Land Inventory, Diagnosis of Crops Condition, Gullying Processes and Hydrology. telecommunications and radio engineering. 65(18):1729-1737.
  7. Gaikovich, K.P., Atroshenko, L.M., and Troitsky, A.V., (1993), Lake ice helicopter radiometry. 24-th General Assambly of U.R.S.I., Kioto, Japan, p. 225.
  8. Atroshenko, L.M., Biryukov, A.G., Mulyak, V.N., and Yavorsky, Y.A., (1993), A method of mapping oil-polluted areas in the oil extraction regions and pipeline breach detection, Vsecoyuzn. Konf. “Metodydistanzionnykhissledovaniy, Barnaul, pp. 25-28 (in Russian).
  9. Atroshenko, L.M., Biryukov, A.G., Filippenko, V.Y., and Yavorsky, Y.A., (1990), Dependence between the tree characteristics and radar image parameters, Vsesoyuzn. Konf. “IssledovanieLesovizKosmosa, Krasnoyarsk, pp.118-120 (in Russian).
  10. Gaikovich, K.P., Atroshenko, L.M., and Troitsky, A.V., (1996), Measurements of the forest radio emission dynamics during the rain, 25-th General Assembly of U.R.S.I., Lille, France, p. 287.
  11. Atroshenko, L.M., Gaikovich, K.P., and Gorobets, N.N., (2006), Soil absorption profiling and complex dielectric permittivity based on microwave radiometry, International Conference on Mathematical Methods in Electromagnetic Theory (MM'ET 2006). Kharkiv, Ukraine, pp. 366-367.


pages 361-369

Back