The article is a continuation of the author’s cycle of works devoted to the development of technology for geoinformation modeling of forest ecosystems. The article deals with the issue of forming an object-oriented catalog of deciduous woody plants growing on the territory of the educational and experimental forestry of the branch of St. Petersburg State Forest Technical University named after S. M. Kirov. The main goal of the work is to form a unified 3-D database of two forest-forming species of Common Aspen (Populus Tremula) and Common Birch (Betula Pendula) for integration into the environment of geoinformation modeling of forest

Marsel R. Vagizov
Candidate of Technical Sciences, Associate Professor,
Head of the Department of Information Systems and Technologies of Institute of Forestry and Nature Management,
St. Petersburg State Forestry University named after S.М. Kirov
5, Institutsky lane, St. Petersburg, 194021, Russia
e-mail: bars-tatarin@yandex.ru

Mikhail M. Shishkin
Bachelor of Information Systems and Technologies, Master’s student of the Department of Information Systems and Technologies of Institute of Forestry and Nature Management, St. Petersburg State Forestry University named after S.М. Kirov
5, Institutsky lane, St. Petersburg, 194021, Russia
e-mail: nomad24000@gmail.com

Eugeniy P. Istomin
Doctor of Technical Sciences, Professor
Head of Applied Informatics Department of the Russian State Hydrometeorological University
79, Voronezhskaya str., St. Petersburg, 192007, Russia
e-mail: biom@bk.ru

Maria A. Novikova 
Candidate of Agricultural Sciences, Associate Professor of the Department of Information Systems and Technologies of Institute of Forestry and Nature Management,
St. Petersburg State Forestry University named after S.М. Kirov
5, Institutsky lane, St. Petersburg, 194021, Russia
e-mail: masch.novikova@yandex.ru

Alexander K. Boytsov
Master of Information Systems and Technologies, Postgraduate
Student of the Department of Forest Plantations, Assistant of the Department of Information Systems and Technologies of Institute of Forestry and Nature Management, St. Petersburg State Forest Technical University named after S.M. Kirov
5, Institutsky lane, St. Petersburg, 194021, Russia
e-mail: a.k.boitsov@yandex.ru

1. Boitsov A.K., Zhigunov A.V., Grigor’ev A.A., Bondarenko A.S. Otsenka perspektivnosti ispol’zovaniya klonov gibridnykh topolei i osiny dlya plantatsionnogo lesovyrashchivanie v usloviyakh Severo-Zapada Rossii [Evaluation of the prospects of using clones of hybrid poplars and aspen for plantation forest cultivation in the conditions of the North-West of Russia]. In: Ged’o V.M. (ed.). Lesa Rossii: politika, promyshlennost’, nauka, obrazovanie: Materialy tret’ei mezhdunar. nauch.-tekhn. konf. (St. Petersburg, 23-24 May 2018). St. Petersburg: SPBGLTU; 2018. pp. 40-43.
2. Boitsov A.K., Logachev A.A., Musin H.G. Using artificial neural networks to determine the prospects of using hybrid tree clones for plantation reforestation. Izvestia Sankt-Peterburgskoj lesotehniceskoj akademii. 2021;237:288-298. DOI 10.21266/2079-4304.2021.237.288–298.
3. Vagizov M.R. Development of a database of three-dimensional coniferous species for a geoinformation forest model. Information and space. 2022;2:162–167.
4. Vagizov M.R. Development of technology for geoinformation modeling of forest ecosystems (part 3). Geoinformatika. 2022;2:34-41. DOI 10.47148/1609-364X-2022-2-34-41.
5. Vagizov M.R. Digital forest geomodelling: a new stage in forest ecosystem data analysis. In: Sbornik nauchnykh trudov Soveta molodykh uchenykh SPBGLTU. St. Petersburg: SPBGLTU; 2021. pp. 4-8.
6. Kravchenko P.P., Burtsev D.S. Digital technologies in the forestry industry: prospects and barriers. Russian journal of innovation economics. 2022;12(2):1029–1050. DOI 10.18334/vinec.12.2.114874.
7. Lerner I.Ya. Didakticheskie osnovy metodov obucheniya [Didactic foundations of teaching methods]. Moscow: Pedagogika; 1981. 185 p.
8. Novikova M.A. Osobennosti estestvennogo vozobnovleniya berezy v usloviyakh Leningradskoi i Tverskoi oblastei: avtoreferat dis. … kand. s.-khoz. nauk [Peculiarities of natural regeneration of birch in the conditions of the Leningrad and Tver regions: candidate of agricultural sciences dissertation abstract]. St. Petersburg, 2016. 22 p.
9. Novikova M.A., Gryazkin A.V., Novikov Yа.A., Lyubimova A.S., Syrnikov I.A. The structure and status of undergrowth of birch under the canopy of forest stands. Advances in current natural sciences. 2016;5:58-63.
10. Petrova N.A., Efimov D.A., Boitsov A.K. 3D-simulation training application for the forest industry. In: Aktual’nye voprosy lesnogo khozyaistva: materialy V mezhdunar. molodezh. nauch.-prakt. konf. (St. Petersburg, 11-12 November 2021). St. Petersburg: SPBGLTU: 2021. pp. 165-169.
11. Vagizov M.R., Istomin E.P., Miheev V.L.. Potapov A.V., Yagotinceva N.V. Visual digital forest model based on a remote sensing data and forest inventory data. Remote Sensing. 2021;13(20):4092. DOI 10.3390/rs13204092.