Astronomical School’s Report, 2013, Volume 9, Issue 2, Pages 169–175

https://doi.org/10.18372/2411-6602.09.2169
Download PDF
UDC 528.9:528.7

The use of satellite images for the tasks of geoinformatic mapping

Kosarev M.V., Yasenev S.O.

National Aviation University, Ukraine

Abstract

Parameters of satellite images of high spatial fragmentation of the position of their use as a basis for GIS mapping are considered. The features of remote sensing data processing techniques: radiometric and geometric correction, coverage, improved visual properties of the images, the selection and implementation of the design to the geographical coordinate system. Analysis of mathematical models for photogrammetric processing satellite images and their possible future use.

Keywords: the Earth remote sensing; geoinformation mapping; satellite imagery; aerospace research; resolution; correction

References

  1. Adrov V.N., Karionov Yu.I., Titarov P.S., Kharitonov V.G., Gromov M.O. (2005). Opredelenie tochnostnykh kharakteristik snimkov QuickBird. V Mezhdunarodnyy seminar pol’zovateley sistemy PHOTOMOD, Yurmala, 13–16 sentyabrya 2005 g. .
  2. Barladin O.V. (2004). Metodychni aspekty intehruvannia kosmoznimkiv v HIS-Kyyeva. IX Mizhnarodnyy naukovo-tekhnichnyy sympozi’um: Heoinformatsiynyy monitorynh navkolyshn’oho seredovyshcha – GPS- i GIS-tekhnolohiy. – Alushta: L’vivs’ke AHP, 2004., 72–74.
  3. Barladin O.V., Yaroshuk P.D. (2006). Vykorystannia kosmichnykh znimkiv vysokoyi prostorovoyi rozriznenosti dlia stvorennia fotoatlasu mista (na prykladi Kyyeva). Vcheni zapysky Tavriys’koho natsional’noho universytetu im. V.I.Vernads’koho. Seriya: Heohrafiya., 2006(2).
  4. Burshtyns’ka Kh.V., Stankevych S.A. (2010). Aerokosmichni znimal’ni systemy: navch. posib. L’viv: Vyd-vo L’vivs’koyi politekhniky. 292 p.
  5. Gershenzon V.E., Kucheyko A.A. (2010). Rynok kosmicheskikh geodannykh v 2010 godu. Prostranstvennye dannye, 2010(2).
  6. Gonsales R., Vuds R. (2005). Tsifrovaya obrabotka izobrazheny. M.: Tekhnosfera. 1072 p.
  7. Zubarev A.E. Obrabotka stereopary kosmicheskikh izobrazheny sensora GeoEye-1. www.racurs.ru/www_download/articles/Test_GE-1.pdf (elektronnyy resurs).
  8. Izobrazheniya Zemli iz kosmosa: primery primeneniya: nauchno-populyarnoe izdanie (2005). M.: OOO Inzhenernotekhnologichesky tsentr “Skaneks”. 100 p.
  9. Instruktsiya po fotogrammetricheskim rabotam pri sozdanii pri sozdanii tsifrovykh topograficheskikh kart i planov. GKINP (GNTA)-02-036-02, Moskva, TSNIIGAiK, 2002.
  10. Knizhnikov Yu.F., Kravtsova V.I. (n.d.). Aerokosmicheskie snimki dlya kart XXI veka. Kartografiya 21 veka: teoriya, metody, praktika: Dokl. 2 Vseros. nauch. konf. po kartografii, posvyasch. pamyati A.A.Lyutogo. – M.: Izd-vo In-ta geogr. RAN., 272–278.
  11. Labutina I.A. (2004). Deshifrirovanie aerokosmicheskikh snimkov. Ucheb. posobie dlya studentov vuzov. M.: Aspekt Press. 184 p.
  12. Lyutivinskaya M.V., Neyfel’d I.G. (2009). Ispol’zovanie dannykh DZZ sverkhvysokogo razresheniya dlya tseley kadastrovogo ucheta. Geomatika, 2009(2), 76–82.
  13. Lyal’ko V.I., Popov M.A., Zubko V.P., Ryabokonenko A.D. (2004). Sostoyanie i perspektivy razvitiya distantsionnykh metodov issledovaniya Zemli v Ukraine. Uchenye zapiski TNU. Seriya: Geografiya, 2004. – 17 (56), № 2., 64–71.
  14. Myshlyaev V.A., Voronov G.B., Shabano G.A. (2011). Izobrazitel’nye svoystva kosmicheskikh snimkov i ikh vliyanie na masshtab sozdavaemykh ortofotoplanov. Geoіnformatsіyny monіtoring navkolishn’ogo seredovischa: GPS і GIS-tekhnologії: Zbіrnik materіalіv XVI Mіzhnarodnogo naukovo-tekhnіchnogo simpozіumu (12–17 veresnya 2011 r., m. Alushta, AR Krim)., 133.
  15. Titarov P.S. (2004). Prakticheskie aspekty fotogrammetricheskoy obrabotki skanernykh kosmicheskikh snimkov vysokogo razresheniya. Informatsionnyy byulleten’ GIS-Assotsiatsii, 2004(2(45)–4(46)).
  16. Chandra A.M., Gosh S.K. (2008). Distantsionnoe zondirovanie Zemli i geograficheskie informatsionnye sistemy. M.: Tekhnosfera. 312 p.

Download PDF