ISSN 印刷: 1064-2315
ISSN オンライン: 2163-9337
巻 51, 2019
巻 50, 2018
巻 49, 2017
巻 48, 2016
巻 47, 2015
巻 46, 2014
巻 45, 2013
巻 44, 2012
巻 43, 2011
巻 42, 2010
巻 41, 2009
巻 40, 2008
巻 39, 2007
巻 38, 2006
巻 37, 2005
巻 36, 2004
巻 35, 2003
巻 34, 2002
巻 33, 2001
巻 32, 2000
巻 31, 1999
巻 30, 1998
巻 29, 1997
巻 28, 1996
Journal of Automation and Information Sciences
The Development of Application to Software Origin Pro for Informational Analysis and Forecast of Forest Fire Danger Caused by Thunderstorm Activity
Nikolay V. Baranovskiy
National Research Tomsk Polytechnic University, Tomsk, Russia
Forest fires occur due to a variety of natural and man-made causes. The main natural cause of forest fires is thunderstorm activity, namely, the impact of cloud-to-ground lightning discharges. It is known that for the analysis of spatial information geographic information systems are widely used. The purpose of this work is to demonstrate the capabilities of our own program code interacting with the Origin Pro software for geoinformational analysis of forest fires arising due to thunderstorm activity. There are various ways to predict and assess forest fire danger from thunderstorms. In this work the approach of a deterministic-probabilistic forecast of forest fire danger is used. In the process of research our own program code has been developed for assessing forest fire danger and its characteristics on the example of the Timiryazevskiy forestry of Tomsk region. The application works in dialog mode. The Origin Pro software is used for visualization and additional advanced data analysis by the parameters of forest fire danger. Data processing for thunderstorm activity and meteorological parameters with reference to probabilistic assessment of forest fire danger is demonstrated.
Louvet R., Aryal J., Josselin D., Genre-Grandpierre C.R. as a GIS: illustrating scale and aggregation problems with forest fire data, Procedia Environmental Sciences, 2015, 27, 66-69, DOI: 10.1016/j.proenv.2015.07.n8.
R: A language and environment for statistical computing reference index the R development core team, Version 2.6.2 (2008-02-08), 1999-2003, R foundation for statistical computing, Vienna, Austria.
Baranovsky N.V., Kuznetsov G.V., Mathematical modeling of the ignition of a coniferous tree in the approximation of the.
Samarsky A. A., Nikolaev E.S., Methods for solving grid equations [in Russian], Nauka, Moscow, 1978.
Keranen K., Malone L., Instructional guide for the ArcGIS Book. Esri Press, Redlands, California, 2018.
Baranovsky N.V., Thermophysical aspects of predictive modeling of forest fire hazards, Avtoref. dis. ... d-ra fiz.-mat. nauk, TPU, Tomsk, 2012.
Cummins K.L., Murphy M.J., Bardo E.A. et al., A combined TOA/MDF technology upgrade of the U.S. national lightning detection network, J. Geophys. Res., 1998, 103, 9035-9044, DOI: 10.I029/98JD00153.
Anderson K., A model to predict lightning-caused fire occurrences, Int. J. Wildland Fire, 2002, 11, No. 3-4, 163-172, DOI: 10.1071/WF02001.
Chilingarian A., Thunderstorm ground enhancements - Model and relation to lightning flashes, Journal of Atmospheric and Solar-Terrestrial Physics, 2014, 107, 68-76, DOI: 10.1016/j.jastp. 2013.11.004.
Gorbatenko V.P., Gromnitskaya A.A., Konstantinova D.A., Ershova T.V., Nechepurenko O.E., Assessment of the role of climatic factors in the occurrence and spread of forest fires in the Tomsk region, Vestnik Tomskogo gosudarstvennogo universiteta, 2015, No. 395, 233-240, DOI: 10.17223/ 15617793/395/38.
Gorbatenko V.P., Ershova T.V., The role of climatic factors in the occurrence of forest fires in the territory of the Tomsk region, Sibirskiy ekologicheskiy zhurnal, 2006, No. 2, 151-155.
Gorbatenko V.P., Ershova T.V., Method for determining the density of lightning discharges into the earth in the temperate latitudes of the northern hemisphere of the earth, Patent of the Russian Federation 2332693, published 27/08/08.
Rodger C.J., Werner S., Brundcll J.B., Lay E.H., Thomson N.R., Holzvvorth R.H., Dowden R.L., Detection efficiency of the VLF World-Wide Lightning Location Network (WWLLN): initial case study, Annates Geophysicae, 2006, 24, 3197-3214, DOI: 10.5194/angeo-24-3197-2006.
Baranovskiy N., Krechetova S., Belikova M., Perelygin A., WWLL N data cluster analysis methods for lightning-caused forest fires monitoring, International Journal of Electrical and Computer Engineering, 2016, 6, 3112-3120, DOI: 10.11591/ijcce.v6i6.12780.
Karanina S.Yu., Kocheeva N.A., Belikova M.Yu., Baranovskiy N.V., Spatial and temporal distribution of lightning discharges over Tomsk region according to WWLL N data for 2010-2015, Advances and Applications in Statistics, 2018, 52, 339-362, DOI: 10.17654/as052050339.
Grishin A.M., Disaster modeling and forecasting [in Russian], Izdatelstvo Tomskogo universiteta, Tomsk, 2002.
Titayev P.S., Simulation model of the probability of forest fire occurrence with thunderstorm activity and anthropogenic factor, Pozharovzryvobezopasnost, 2015, 24, No. 5, 44-53, DOI: 10.18322/ pvb.2015.24.5.44-53.
Sivukhin D.V., General physics course [in Russian], Nauka, Moscow, 1977, 3, Electricity.
Grishin A.M., Shipulina O.V., Mathematical modeling of the spread of peak forest fires in homogeneous forests and along glades, Fizika goreniya i vzryva, 2002, 38, No. 6, 17-29.
Grishin A.M., Mathematical modeling of forest fires and new ways of dealing with them [in Russian], Nauka, SO RAN, Novosibirsk, 1992.
Principles of design and development of software. Training course MCSD, [Russian translation], Izdatelsko-torgovyi dom ''Russkaya redaktsiya'', 2000.
Flenov M.E., Bible Delphi [in Russian], BKHV-Peterburg, St. Petersburg, 2011.
Vasilyev V.I., Ilyasov B.G., Intelligent control systems: Theory and practice [in Russian], Radiotekhnika, Moscow, 2009.
Project of the organization and development of forestry of the Timiryazevsky mekhleskhoz of the Tomsk forestry territorial production association of the Ministry of Forestry of the RSFSR, Volume III, Taxation descriptions of the Timiryazevsky forestry. Book 3. Quarters 91-145, Inventory No. 390, Goslezkhoz SSSR, Vsesoyuznoye obyedineniye ''Lesproyekt'', Zapadno-sibirskoye lesoustroitelnoye predpriyatiye, Tomsk, 1990.
Matsenko V.V., Sokolov A.Ya., Kalinin S.I., and others, General plan of firefighting arrangement of forests [in Russian], 1, Explanatory note, 5-99.14-17-PM, Gosudarstvennyi proyektno-izyskatelskiy institut ''Rosgiproles'', Altayskiy filial, Barnaul, 1999.
Grishin A.M., Perminov V.A., Transition of a ground forest fire to a horse forest fire, Fizika goreniya i vzryva, 1990, 26, No. 6, 27-35.
Perminov V., Mathematical modeling of crown forest fire initiation, WSEAS International Conference on Engineering Mechanics, Structures, Engineering Geology (EMESEG '08), Heraklion, Crete Island, Greece, July 22-24, 2008, 259-264.
Valendik E.N., Wind and forest fire [in Russian], Nauka, Moscow, 1965.
Jarratano J., Riley G., Expert systems: principles of development and programming, [Russian translation], Izdatelskiy dom ''Vilyams'', Moscow, 2007.
Russell S., Norvig P., Artificial intelligence: a modern approach [Russian translation], Izdatelskiy dom ''Vilyams'', Moscow, 2007.
Articles with similar content:
Exploration into the Physical Factor of Meteor Detectibility
Telecommunications and Radio Engineering, Vol.65, 2006, issue 1-5
D. Y. Gorelov, Yu. I. Voloshchuk
ESTIMATION OF CARBON BALANCE OF UKRAINIAN FORESTS USING THE DATA OBTAINED FROM REMOTE EARTH SENSING FROM THE SPACE
Telecommunications and Radio Engineering, Vol.69, 2010, issue 12
V. V. Bogomolov, L. M. Atroshenko, S. I. Kostyashkin, I. F. Buksha, D. S. Kostyashkin, V. P. Pasternak