Ukrainian field sites system for remote sensing of the Earth as an element of the GEOSS/GMES global system

1Lyalko, VI, 1Popov, MO
1State institution «Scientific Centre for Aerospace Research of the Earth of the Institute of Geological Sciences of the National Academy of Sciences of Ukraine», Kyiv, Ukraine
Kosm. nauka tehnol. 2008, 14 ;(2):03-12
https://doi.org/10.15407/knit2008.02.003
Publication Language: Russian
Abstract: 
The problem of construction of the Ukrainian field sites system for remote sensing of the Earth is discussed. The requirements for getting reliable and precise field information in-situ, some organizational aspects and possible directions of the international cooperation in this area are considered.
Keywords: field information, GEOSS/GMES global system, remote sensing
References: 
1. Lyalko V. I., Popov M. O. (Eds) Multispectral remote sensing in nature management, 358 p. (Nauk.dumka, Kyiv, 2006) [in Ukrainian].
2. Wentzel E. S. Probability theory, 576 p. (Mir, Moscow, 1969) [in Russian].
3. Didukh Ya. P., Plyuta P. G. Phytoindication of Environmental Factors, 280 p. (Naukova Dumka, Kyiv, 1994) [in Ukrainian].
4. Certification. The basic concepts. Terms and definitions: Derzhavnyj standart Ukrai'ny DSTU-2462-94 (1994) [in Ukrainian].
5. Certification system for Ukrainian certification of products. Procedure for certification of products: Derzhavnyj standart Ukrai'ny DSTU-3413-96 (1996) [in Ukrainian].
6. Remote sensing of the Earth from outer space. Processing data. Terms and definitions: Derzhavnyj standart Ukrai'ny DSTU 4758:2007, 12 p. (Derzhspozhyvstandart Ukrai'ny, Kyiv, 2007) [in Ukrainian].
7. Korotaev G. K., Eremeev V. N., Kubryakov A. I. Global Black Sea Ocean Observing System: Scientific Strategy and Design. In: Ekologichna bezpeka pryberezhnoi ta shel'fovoi zon ta kompleksne vykorystannja resursiv shel'fu, Is. 2 (7), 5—17 (MP NANU, Sevastopol, 2003) [in Russian].
8. Movchan J. I., Kanevsky V. A., Semichaevsky V.D., et al. Phytoindication in Remote Sensing, 310 p. (Naukova Dumka, Kiev, 1993) [in Russian].
9. Muravsky L. I., Koshovy V. V., Olijnyk O. T., et al. Use of geoinformation technologies for monitoring of local ecosystens of Ukraine. Vidbir i obrobka informacii', Is. 24 (100), 19—30 (2006) [in Ukrainian].
10. Popov M. A. Methodology for evaluating the accuracy of the classification of objects in space images. Probl. Upravl. Inform., No.1, 97—103 (2007) [in Russian].
11. Popov M. A., Tsymbal T. V. Rules and procedure of the technique certification using the remote sensing data for the solution of thematic problems. Kosm. nauka tehnol., 10 (4), 104—112 (2004) [in Ukrainian].
12. Anderson J. R., Hardy E. E., Roach J. T., Witmer R. E. Land use and land cover classification system for use with remote sensor data. In: Geological Survey Professional Paper 964, 41 p. (United States Government Printing Office, Washington, 1976).
13. Barrett E. C, Curtis L. F. Introduction to Environmental Remote Sensing, 457 p. (Taylor and Francis Group, 1999).
14. Buttner G., Feranec J., Jaffrain G., et al. The CORINE Land Cover 2000 Project. EARSeL Proceedings, 3, 331—346 (2004).
15. Global Earth Observation System of Systems (GEOSS). 10-Year Implementation Plan: Reference Document, 210 p. (Publ. by ESA Publication Division, Noordwijk, 2005).
16. McCoy R. M. Field methods in remote sensing, 159 p. (Guilford Press, N. Y., 2004).
17. Smith J. H., Wickham J. D., Stekhman S. V., Yang L. Impacts of patch size and land-cover heterogeneity on thematic image classification accuracy. Photogramm. Eng. and Remote Sens., 68 (1), 65—70 (2002).
18. Smith J. R. Radiometric ground truthing for airborne and satellite sensor tests. Proceedings of Pecora 15/Land Satellite Information IV/ISPRS Commission I/FIEOS Conference (2002). Available: http://www.isprs.org/commissionl/proceed-ings02/paper
19. Spaceborne optoelectronic sensors and their radiometric calibration. Terms and definitions. Part 1. Calibration techniques, Eds A. C. Parr, L. K. Issaev, 220 p. (US, National Institute of Standards and Technology, March 2005).