References
- Forkuor, G.; Maathius, B. 2012. Comparison of SRTM and ASTER derived digital elevation models over two regions in Ghana – implications for hydrological and environmental modeling, studies on environmental and applied geomorphology, in T. Piacentini (Ed.). Studies on environmental and applied geomorphology. InTech, 219–240. https://doi.org/10.5772/28951
- Geoguide. 1999. Osnovni polozhennja stvorennja ta onovlennja topoghrafichnykh kart masshtabiv 1:10000, 1:25000, 1:50000, 1:100000, 1:200000, 1:500000, 1:1000000 [online], [cited 17 October 2017]. Available from Internet: http://www.geoguide.com.ua/basisdoc/basisdoc.php?part=tgo&art=3201
- Graham, L. 1974. Synthetic interferometer radar for topographic mapping, Proceedings of the IEEE 62(6): 763–768. https://doi.org/10.1109/PROC.1974.9516
- Herenchuk, K. 1973. Pryroda Chernivetskoi oblasti. Lviv: Vyscha shk.
- Karionov, Y. 2010. Ocenka tochnosti matricy vysot SRTM, Geoprofi (1): 48–51.
- Karpinsjkyj, J.; Ljashhenko, A. 2000. Oroghrafichno-trianghuljacijna cyfrova modelj reljjefu, Visnyk gheodeziji ta kartoghrafiji 3(18): 28–33 (in Ukrainian).
- Karwel, A.; Ewiak, I. 2008. Estimation of the accuracy of the SRTM terrain model on the area of Poland, in The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences 37(B7): 169–172.
- Korotin, A.; Popov, E. 2015. Ocenka tochnosti cifrovyh modelej rel’efa, primenyaemyh dlya territorial’nyh issledovanij, in Yubilejnaya 25-a Mezhdunarodnaya konferenciya (Graphi-Con2015), 22–25 September 2015, Protvino, Russia [online], [cited 17 October 2017]. Available from Internet: http://www.graphicon.ru/html/2015/papers/21.pdf
- Meshin, I. 2012. Postroeniya cifrovoj modeli rel’efa po dannym radarnoj interferometricheskoj s’emki, Territoriya CREDO 1(44) [online], [cited 17 October 2017]. Available from Internet: http://www.credo-dialogue.com/getattachment/9949ae88-b4df-4b8f-9936-232be381d1a7/Postroeniya-cifrovoi-modeli-rel’efa-po-dannym-radar.aspx
- Murav’ev, L. 2008. Vysotnye dannye SRTM protiv topografi-cheskoj s’emki [online], [cited 17 October 2017]. Available from Internet: http://web.ru/db/msg.htmlmid=1177761
- Nagornyuk, K. 2015. Cifrovaya model’ rel’efa SRTM uluchshena do 31 m s ranee dostupnyh 90 metrov, oficial’nyj blog Arc-GIS [online], [cited 17 October 2017]. Available from Internet: http://esri-cis.ru/blogs/?page=post&blog=arcgis&post_id=SRTM (in Russian)
- Nikolakopoulos, K.; Kamaratakis, E.; Chrysoulakis, N. 2006. SRTM vs ASTER elevation products. Comparison for two regions in Crete, Greece, International Journal of Remote Sensing 27(21): 4819–4838. https://doi.org/10.1080/01431160600835853
- On’kov, I. 2011. Ocenka tochnosti vysot SRTM dlya celej ortotransformirovaniya kosmicheskih snimkov vysokogo razresheniya, Geomatika v(3): 40–46.
- Posteljnjak, A. 2013. Ocinjuvannja tochnosti vysot cyfrovykh modelej reljjefu SRTM ta ASTER GDM, Visnyk gheodeziji ta kartoghrafiji (4): 17–21.
- Rodriguez, E.; Morris, C.; Belz, J., et al. 2005. An assessment of the SRTM topographic product. Jet Propulsion Laboratory, Pasadena, California.
- Zaharova, L. 2011. Metody radiolokacionnoj interferometrii v issledovanii harakteristik zemnyh pokrovov: PhD thesis. Fryazino.
- Zebker, H.; Goldstein, R. M. 1986. Topographic mapping from interferometric synthetic aperture radar observations, Journal of Geophysical Research 91(B5): 4993–4999. doi: 10.1029/JB091iB05p04993
- Zebker, H.; Goldstein, R. 1987. Interferometric radar measurement of ocean surface current, Nature 328(20): 707–709.