Russian Federation
Russian Federation
Russian Federation
UDC 332.27
CSCSTI 36.01
In the context of constant environmental change and rapid urbanization, the state is faced with making decisions in the field of territorial planning every day. In order to ensure the rational use of natural resources and limit the impact of negative processes, an integrated approach is needed for effective territorial management. The territory of research in this work was the Tyumen region, which is distinguished by its oil and gas potential, large areas of forest lands and agricultural lands. This work is devoted to the development of a software module for assessing the spatiotemporal dynamics of the environment-forming potential of the territory, which will optimize the decision-making process in the field of territorial planning at various levels. The proposed methodology is presented on the basis of QGIS software. The methodology includes the stages of work, starting from the selection and analysis of initial data to the visualized result of the work. As a data processing tool, a software module has been developed using the PyQt5 programming language for QGIS. The application of such a tool can be used for research in the field of agriculture, ecology and environmental protection in the development of strategies and plans for the development of territories at various levels.
software module, spatial planning, geographic information system, environmental potential, environmental monitoring
1. Sizov A.P., Chernyh E.G., Schukina V.N. i dr. Harakteristika optimal'nosti struktury ugodiy po rezul'tatam ischisleniya sredoformiruyuschego potenciala territorii // Geodeziya, zemleustroystvo i kadastry: problemy i perspektivy razvitiya: sbornik nauchnyh trudov po materialam V Mezhdunarodnoy nauchno-prakticheskoy konferencii, posvyaschennoy 105-letnemu yubileyu kafedry geodezii i distancionnogo zondirovaniya. Omsk: Omskiy GAU, 2023. S. 482–486.
2. Emel'yanov A.A., Ereshko M.V., Sizov O.S. i dr. Obzor sovremennyh oblachnyh platform obrabotki i analitiki dannyh DZZ i informacionnyh produktov na ih osnove // Issledovanie Zemli iz kosmosa. 2022. № 2. S. 72–87. DOIhttps://doi.org/10.31857/S020596142202004X. https://elibrary.ru/download/elibrary_48412711_14151132.pdf
3. Cherkasov A.A., Mahmudov R.K., Sopnev N.V. Prostranstvennyy analiz gorodov i aglomeraciy: integraciya tehnologiy GIS i Big Data // Nauka. Innovacii. Tehnologii. 2021. № 4. S. 95–112. DOIhttps://doi.org/10.37493/2308-4758.2021.4.6. https://elibrary.ru/download/elibrary_47831763_60111062.pdf
4. Cheremisin D.G., Mkrtchyan V.R. Aktual'nost' primeneniya iskusstvennogo intellekta pri reshenii geodezicheskih zadach // Simvol nauki: mezhdunarodnyy nauchnyy zhurnal. 2022. № 12-2. S. 39–40.
5. Verhoturov A.A., Melkiy V.A. Razrabotka sistem regional'nogo monitoringa zemel' na osnove atlasnogo kartografirovaniya // Izvestiya Tomskogo politehnicheskogo instituta. Inzhiniring georesursov. 2016. T. 327, № 7. S. 66–83.
6. Kolesnikov A.A. Analiz metodov i sredstv iskusstvennogo intellekta dlya analiza i interpretacii dannyh aktivnogo distancionnogo zondirovaniya // Vestnik SGUGiT. 2022. T. 27, № 3. S. 74–94. DOIhttps://doi.org/10.33764/2411-1759-2022-27-3-74-94. https://vestnik.sgugit.ru/wp-content/uploads/2022/06/74-94.pdf
7. Gura D.A., Dubenko Yu.V., Markovskiy I.G. Razrabotka koncepcii intellektual'nogo bloka obrabotki dannyh v sisteme monitoringa mostov s primeneniem skaniruyuschih tehnologiy // Izvestiya vysshih uchebnyh zavedeniy. Povolzhskiy region. Tehnicheskie nauki. 2020. № 2 (54). S. 14–24. DOIhttps://doi.org/10.21685/2072-3059-2020-2-2. https://izvuz_tn_eng.pnzgu.ru/files/izvuz_tn_eng.pnzgu.ru/02220.pdf
8. Drobež P., Grigillo D., Lisec A., et al. Remote sensing data as a potential source for establishment of the 3D cadastre in Slovenia // Geodetski vestnik. 2016. Vol. 60. No. 3. R. 392–422. DOIhttps://doi.org/10.15292/GEODETSKI-VESTNIK.2016.03.392-422. https://www.researchgate.net/publication/309402619_Remote_sensing_data_as_a_potential_source_for_establishment_of_the_3D_cadastre_in_Slovenia
9. Masyutenko N.P., Chuyan N.A., Kuznecov A.V. i dr. Sistema ocenki resursnogo potenciala agrolandshaftov dlya formirovaniya ekologicheski sbalansirovannyh agrolandshaftov. Kursk: GNU VNIIZiZPE RASHN, 2012. 67 c.
10. Hatib A., Malinnikov V.A. Avtomatizirovannaya klassifikaciya rastitel'nogo pokrova sredizemnomorskogo landshafta po kosmicheskim izobrazheniyam vysokogo prostranstvennogo razresheniya s uchetom spektral'no-teksturnyh i topograficheskih priznakov // Sovremennye problemy distancionnogo zondirovaniya Zemli iz kosmosa. 2021. T. 18, № 2. S. 51–63. DOIhttps://doi.org/10.21046/2070-7401-2021-18-2-51-63. http://d33.infospace.ru/jr_d33/2021v18n2/51-63.pdf
11. Minville-Gallagher M. L’Afrique de l’Ouest a l’heure des acquisitions massives de terres // Revue Possibles. 2013. Vol. 36. No. 3. P. 60–72. DOIhttps://doi.org/10.62212/revuepossibles.v36i3.371. https://doi.org/10.62212/revuepossibles.v36i3.371
12. Colin J.-Ph., Le Meur P-Y., Léonard É. Les politiques d’enregistrement des droits fonciers. Du cadre légal aux pratiques locales. Paris: Karthala, 2009. 534 p.
13. Belenko V.V. Koncepciya i tehnologiya monitoringa zemel' zastraivaemyh territoriy po materialam kosmicheskoy s'emki: dis. … d-ra tehn. nauk. M., 2019. 209 s.
14. Lebedev Yu.V. Ekologo-ekonomicheskaya ocenka sredoformiruyuschego potenciala lesnyh landshaftov Krasnoyarskogo kraya // Geografiya i prirodnye resursy. 2013. № 2. S. 166–173.
15. Dubrovskiy A.V. Metodicheskie podhody k modelirovaniyu i prognozirovaniyu racional'nogo ispol'zovaniya zemel'nyh resursov s primeneniem geotehnologiy // Vestnik SGUGiT. 2022. T. 27, № 3. S. 145–156. DOIhttps://doi.org/10.33764/2411-1759-2022-27-3-145-156. https://vestnik.sgugit.ru/upload/vestnik/sborniki/2022/27_3/145-156.pdf
