1 Guk A.P.
2 Evstratova L.G.
Year: 
Pages: 
9–16

Siberian State University of Geosystems and Technologies

1, 

Lomonosov Moscow State University (MSU)

2, 
Abstract:
The quantitative approach to the digital image processing is described in this paper. The photogrammetric processing and pattern recognition of the high resolution space imageries are regarded as frame of unified metric theory. The proposal techniques include several blokes: the space of features, the decision rules, assessment of different methods. Some results of different technologies are showed.
References: 
1.   Arbuzov S.A., Guk A.A. (2011) Investigation of “decision tree” algorithm in ENVI software package. Geodezia i Kartografia, 72(2), pp. 11–14.
2.   Sh. Dejvis, D.A. Landgrebe, T.L. Filips Distancionnoe zondirovanie: kolichestvennyj podhod. Pod red. F. Svejna i SH. Dejvis. Per. s angl.. M.: Nedra, 415 p.
3.   Guk A.P. (2007) Развитие фотограмметрических технологий на основе имманентных свойств цифровых снимков. Геодезия и картография, 68(11), pp. 26–29.
4.   Evstratova L.G. Razrabotka tekhnologii sozdaniya cifrovyh kart po aehrokosmicheskim snimkam na osnove metoda svobodno orientirovannyh modelej: Diss. na soisk. uch. st. kand. tekhn. nauk.. Novosibirsk: SGGA, 2009, 174 p.
5.   Guk A.P., Evstratova L.G., Gordienko A.S., Altyntsev M.A. (2010) Objects changes localization of natural-territorial complexes based on satellite images taken at different time. Geodezia i Kartografia, 71(2), pp. 19–25.
6.   Guk A.P., Evstratova L.G., Khlebnikov E.P., Altyntsev M.A., Arbuzov S.A., Gordienko A.S., Guk A.A., Simonov D.P. (2013) Development of techniques for automated decoding of aerospace images. Object picture interpretive features on multispectral satellite images. Geodezia i Kartografia, (7), pp. 31-40.
7.   Guk A.P., Evstratova L.G., Khlebnikov E.P., Altyntsev M.A., Arbuzov S.A., Gordienko A.S., Guk A.A. (2013) Automated interpretation of space images. Detection of changes in the status of territories and objects on multispectral satellite images obtained at different dates. Geodezia i Kartografia, (8), pp. 39-47.
8.   Guk A.P., Evstratova L.G., Gordienko A.S. Ispol'zovanie strukturnyh priznakov izobrazhenij tipovyh uchastkov mestnosti dlya vyyavleniya izmenenij sostoyaniya territorij po kosmicheskim snimkam vysokogo razresheniya. Izv. vuzov. Geodeziya i aehrofotos"emka, 2009, no. 6, pp. 52–56.
9.   Guk A.P., Arbuzov S.A. (2011) Use of digital surface models for interpretation of buildings and selection of urban area objects changes. Geodezia i Kartografia, 72(3), pp. 24–28.
10.   Guk A.P., Altyncev M.A. Preobrazovanie Tasseled Cap dlya kosmicheskih snimkov FORMOSAT-2. Geodeziya i aehrofotos"emka, 2012, no. 3, pp. 39–47.
11.   Manovich V.N., Guk A.P., Evstratova L.G. Avtomatizirovannoe deshifrovanie mnogospektral'nyh kosmicheskih snimkov vysokogo razresheniya pri reshenii zadach lesoustrojstva i taksacii lesa. Lesnoe hozyajstvo, 2013, no. 2, pp. 7–40.
Citation:
Guk A.P., 
Evstratova L.G., 
(2015) Designing of technological schemes for image processing for automated decoding of multispectral satellite imagery. Geodesy and cartography = Geodezia i Kartografia, (), pp. 9–16. (In Russian).
Publication History
Published: 24.02.2016

QR-code page

QR-код страницы