Vizualization of the Arctic landscapes in geoinformation system.

E.A. Panidi, A.A. Bobkov, V.Yu. Tsepelev

Research output

Abstract

In order to investigate the long-scale dynamics of an ice cover, authors suggest to use the geoinformation system (GIS) which allows to conduct the operative and historical analysis of the Polar Region water-ice landscapes variability. Such GIS should include longterm monthly average fields of sea ice, hydrological and atmospheric characters. All collected data and results of their processing have been structured in ArcGISTM. For presentation in the INTERNET resources all datasets were transformed to the open format KML for using in the virtual reality of Google EarthTM. The doublecomponent system elaborating on the base of ArcGIS and Google Earth allows to make accumulation, processing and joint synchronous and asynchronous analysis of data and provide wide circle of remote users with accessibility of visual datasets analysis.
Original languageEnglish
Pages (from-to)paper #178-D2
JournalEuropean Space Agency - Special Publication
Issue number686
Publication statusPublished - 2010

Fingerprint

virtual reality
polar region
ice cover
accessibility
sea ice
ice
resource
analysis
water

Cite this

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title = "Vizualization of the Arctic landscapes in geoinformation system.",
abstract = "In order to investigate the long-scale dynamics of an ice cover, authors suggest to use the geoinformation system (GIS) which allows to conduct the operative and historical analysis of the Polar Region water-ice landscapes variability. Such GIS should include longterm monthly average fields of sea ice, hydrological and atmospheric characters. All collected data and results of their processing have been structured in ArcGISTM. For presentation in the INTERNET resources all datasets were transformed to the open format KML for using in the virtual reality of Google EarthTM. The doublecomponent system elaborating on the base of ArcGIS and Google Earth allows to make accumulation, processing and joint synchronous and asynchronous analysis of data and provide wide circle of remote users with accessibility of visual datasets analysis.",
author = "E.A. Panidi and A.A. Bobkov and V.Yu. Tsepelev",
year = "2010",
language = "English",
pages = "paper #178--D2",
journal = "European Space Agency - Special Publication",
issn = "1609-042X",
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Vizualization of the Arctic landscapes in geoinformation system. / Panidi, E.A.; Bobkov, A.A.; Tsepelev, V.Yu.

In: European Space Agency - Special Publication, No. 686, 2010, p. paper #178-D2.

Research output

TY - JOUR

T1 - Vizualization of the Arctic landscapes in geoinformation system.

AU - Panidi, E.A.

AU - Bobkov, A.A.

AU - Tsepelev, V.Yu.

PY - 2010

Y1 - 2010

N2 - In order to investigate the long-scale dynamics of an ice cover, authors suggest to use the geoinformation system (GIS) which allows to conduct the operative and historical analysis of the Polar Region water-ice landscapes variability. Such GIS should include longterm monthly average fields of sea ice, hydrological and atmospheric characters. All collected data and results of their processing have been structured in ArcGISTM. For presentation in the INTERNET resources all datasets were transformed to the open format KML for using in the virtual reality of Google EarthTM. The doublecomponent system elaborating on the base of ArcGIS and Google Earth allows to make accumulation, processing and joint synchronous and asynchronous analysis of data and provide wide circle of remote users with accessibility of visual datasets analysis.

AB - In order to investigate the long-scale dynamics of an ice cover, authors suggest to use the geoinformation system (GIS) which allows to conduct the operative and historical analysis of the Polar Region water-ice landscapes variability. Such GIS should include longterm monthly average fields of sea ice, hydrological and atmospheric characters. All collected data and results of their processing have been structured in ArcGISTM. For presentation in the INTERNET resources all datasets were transformed to the open format KML for using in the virtual reality of Google EarthTM. The doublecomponent system elaborating on the base of ArcGIS and Google Earth allows to make accumulation, processing and joint synchronous and asynchronous analysis of data and provide wide circle of remote users with accessibility of visual datasets analysis.

M3 - Article

SP - paper #178-D2

JO - European Space Agency - Special Publication

JF - European Space Agency - Special Publication

SN - 1609-042X

IS - 686

ER -