Geoinformation system for prediction of peat fires and its validation A. I. Filkov, A. A. Sinyutkina, Y. A. Kharanzhevskaya
Material type: ArticleSubject(s): торфяные пожары | ГИС | прогнозирование пожаров | карты болотGenre/Form: статьи в сборниках Online resources: Click here to access online In: 15th International Multidisciplinary Scientific GeoConference SGEM 2015. Vol. 2 : informatics, geoinformatics and remote sensing : conference proceedings, 18-24, June, 2015, Albena, Bulgaria Vol. 2 : Geodesy and mine surveying, cartography and GIS. P. 863-870Abstract: A retrospective analysis of a previously proposed deterministic and probabilistic techniques is conducted to predict a peat fire hazard [1], using meteorological data, statistical data on the location and time of peat fire initiation in the Bakcharsky district of the Tomsk region of Russia for 1989-2012, as well as the base of thermal constants for types of peat. Analysis of the results shows that the new technique for prediction of the peat fire hazard more accurately indicates the day of fire initiation compared to National Standard that is used today in practice in Russia. Based on the proposed technique, a software package has been developed for visualizing the results for prediction of peat fire initiation in the geoinformation system in Bakcharsky district of Tomsk Region. An electronic GIS map of mires is used as a cartographic base created on the basis of interpretation of satellite images and materials of field landscape studies.Библиогр.: 14 назв.
A retrospective analysis of a previously proposed deterministic and probabilistic techniques is conducted to predict a peat fire hazard [1], using meteorological data, statistical data on the location and time of peat fire initiation in the Bakcharsky district of the Tomsk region of Russia for 1989-2012, as well as the base of thermal constants for types of peat. Analysis of the results shows that the new technique for prediction of the peat fire hazard more accurately indicates the day of fire initiation compared to National Standard that is used today in practice in Russia. Based on the proposed technique, a software package has been developed for visualizing the results for prediction of peat fire initiation in the geoinformation system in Bakcharsky district of Tomsk Region. An electronic GIS map of mires is used as a cartographic base created on the basis of interpretation of satellite images and materials of field landscape studies.
There are no comments on this title.