Sequential design of a multi-level information base for land inventory

Geoinformatics
UDC: 
33.33:004
DOI: 
10.22389/0016-7126-2023-993-3-43-54
1 Pavlova V.A.
2 Stepanova E.A.
3 Uvarova E.L.
Year: 
2023
№: 
3
993
Pages: 
43-54

Saint-Petersburg State Agrarian University

1, 
2, 
3, 
Abstract:
There is an extensive amount of research works in the field of land inventory. However, in modern scientific and technical literature, they do not deal with designing a multi-level information base for the inventory of agricultural land, a priority category of land. There is practically no detailed description of the database formation in existing papers. The aim of the work is consistent designing a bank of data for the agricultural land inventory. So, the authors discuss the procedure for carrying it out, provide an analysis of modern technologies in order to form semantic and graphical parts of the information base, and outline the features of its sequential design. The research methods of theoretical and empirical level were used. We have presented the automation for the process of entering data into the base using GIS technologies. As a result, the final outcome was obtained, a multi-level bank for land inventory. The approbation results of the proposed production are presented on the materials of the Pskov oblast.
References: 
1.   Burlov V. G., Mironov A. Yu., Mironova A. Yu. Primenenie geoinformatsionnoi sistemy v profilaktike, vyyavlenii i dokazyvanii administrativnykh pravonarushenii. Uchenye zapiski Rossiiskogo gosudarstvennogo gidrometeorologicheskogo universiteta, 2019, no. 57, pp. 126–146. DOI: 10.33933/2074-2762-2019-57-126-146.
2.   Denisova E. V. Primenenie sovremennykh tekhnologii pri inventarizatsii zemel'. Nauchno-agronomicheskii zhurnal, 2020, no. 1 (108), pp. 10–14. DOI: 10.34736/FNC.2020.108.1.002.10-14.
3.   Dordzhieva B. V. Inventarizatsiya zemel'nykh uchastkov kak metod upravleniya: podkhody i rezul'taty (na primere Respubliki Kalmykiya). Mezhdunarodnyi sel'skokhozyaistvennyi zhurnal, 2015, no. 5, pp. 19–20.
4.   Zhdanova R. V., Smirnova M. A., Ruleva N. P. Analiz mezhdunarodnogo opyta inventarizatsii sel'skokhozyaistvennykh zemel'. Mezhdunarodnyi sel'skokhozyaistvennyi zhurnal, 2021, no. 3, pp. 4–7. DOI: 10.24412/2587-6740-2021-3-4-7.
5.   Isachenko A. P. Rol' i znachenie ratsional'nogo prirodopol'zovaniya i zemleustroistva v sovremennykh usloviyakh. Vestnik Belorusskoi gosudarstvennoi sel'skokhozyaistvennoi akademii, 2014, no. 1, pp. 152–158.
6.   Kostin I. G. Vozmozhnosti ispol'zovaniya sovremennykh geoinformatsionnykh sistem dlya agroekologicheskogo monitoringa zemel' sel'skokhozyaistvennogo naznacheniya. Dostizheniya nauki i tekhniki APK, 2020, Vol. 34, no. 9, pp. 96–105. DOI: 10.24411/0235-2451-2020-10917.
7.   Malochkin V. Yu., Gorbachev S. Yu. GIS kak vazhnyi instrument inventarizatsii zemel' sel'skokhozyaistvennogo naznacheniya. Mezhdunarodnyi zhurnal prikladnykh nauk i tekhnologii «Integral», 2019, no. 2 (2), pp. 93–96. DOI: 10.24411/2658-3569-2019-12016.
8.   Pavlova V. A., Stepanova E. A., Uvarova E. L. Proektirovanie informatsionnoi bazy inventarizatsii zemel' sel'skokhozyaistvennogo naznacheniya. Izvestia vuzov. Geodesy and Aerophotosurveying, 2021, Vol. 65, no. 2, pp. 200–208.
9.   Pavlova V.A., Uvarova E.L. (2019) Application of information and communication technologies in modern Russian cadastral system. Geodezia i Kartografia, 80(2), pp. 57-63. (In Russian). DOI: 10.22389/0016-7126-2019-944-2-57-63.
10.   Sergeeva O. S. Primenenie geoinformatsionnykh tekhnologii dlya povysheniya effektivnosti zemel'nogo nadzora. Geograficheskii vestnik, 2019, no. 4 (51), pp. 154–162. DOI: 10.17072/2079-7877-2019-4-154-162.
11.   Skachkova M. E., Kovyazin V. F. Informatsionnaya model' ucheta zelenykh nasazhdenii Sankt-Peterburga. Izv. Sankt-Peterburgskoi lesotekhnicheskoi akademii, 2011, no. 194, pp. 137–149.
12.   Stepanova E. A. Usloviya i faktory inventarizatsii zemel' v granitsakh sel'skokhozyaistvennykh zemlepol'zovanii. Izv. Sankt-Peterburgskogo gosudarstvennogo agrarnogo universiteta, 2015, no. 41, pp. 230–235.
13.   Studenkova N. A., Dobrotvorskaya N. I., Avrunev E. I., Kozina M. V., Pyatkin V. P. Aktual'nye voprosy inventarizatsii i kadastrovogo ucheta zemel' sel'skokhozyaistvennogo naznacheniya. Vestnik SSUGT, 2021, no. 6, pp. 140–149.
14.   Tkacheva O. A., Chernova A. I. Upravlenie zemel'nymi resursami: inventarizatsionnyi aspekt. Ekonomika i ekologiya territorial'nykh obrazovanii, 2020, Vol. 4, no. 4, pp. 26–32. DOI: 10.23947/2413-1474-2020-4-4-26-32.
15.   Fedorinov A. V., Sorokina O. A., Duplitskaya E. A. Primenenie GIS-tekhnologii pri inventarizatsii zemel' sel'skokhozyaistvennogo naznacheniya. Moskovskii ekonomicheskii zhurnal, 2019, no. 8, pp. 21–29. DOI: 10.24411/2413-046X-2019-18034.
16.   Baskent E. Z. (2021) Assessment and improvement strategies of sustainable land management (SLM) planning initiative in Turkey. Science of The Total Environment, no. 797, pp. 149183. DOI: 10.1016/j.scitotenv.2021.149183.
17.   Garmanov V., Osipov A., Bogdanov V., Pavlova V., Uvarova E., Zavarin B., Efimova G., Terleev V., Nikonorov A. (2021) Technology for creating electronic soil maps based on archival materials for land management engineering. E3S Web of Conferences, no. 244, pp. 03012. DOI: 10.1051/e3sconf/202124403012.
18.   Gibbs H. K., Salmon J. M. (2015) Mapping the world`s degraded. Applied Geography, no. 57, pp. 12–21. DOI: 10.1016/j.apgeog.2014.11.024.
19.   Oliveira J., Campbell E. E., Lamparelli R. A. C., Figueiredo G., Soares J. R., Jaiswal D., Monteiro L. A., Vianna M. S., Lynd L. R., Sheehan J. (2020) Choosing pasture maps: An assessment of pasture land classification definitions and a case study of Brazil. International Journal of Applied Earth Observation and Geoinformation, no. 93, pp. 102205. DOI: 10.1016/j.jag.2020.102205.
20.   Pavlova V. A., Sulin M. A., Lepikhina O. Yu. (2019) The mathematical modelling of the land resources mass evaluation in agriculture. Journal of Physics: Conference Series, no. 1333 (3), pp. 032049. DOI: 10.1088/1742-6596/1333/3/032049.
21.   Pavlova V. A., Uvarova E. L. (2017) Newest technology in cadastral activities. Journal of Mining Institute, no. 225, pp. 313–319. DOI: 10.18454/pmi.2017.3.313.
22.   Podryadchikova E., Gileva L., Dubrovsky A., Lobanova E. (2021) Use of geoinformation systems for forecasting and recognizing crisis situations in agriculture. 1st International Conference on Environmental Sustainability Management and Green Technologies (ESMGT 2021), no. 296, pp. 03004. DOI: 10.1051/e3sconf/202129603004.
23.   Skachkova M. E., Lepikhina O. J., Ignatova V. V. (2018) Information support of monitoring of technical condition of buildings in construction risk area. Journal of Physics: Conference Series, no. 1015 (4), pp. 042056. DOI: 10.1088/1742-6596/1015/4/042056.
24.   Xu Z., Zhuo Y., Liao R., Wu C., Wu Y., Li G. (2019) LADM-Based Model for Natural Resource Administration in China. ISPRS International Journal of Geo-Information, no. 8 (10), pp. 456. DOI: 10.3390/ijgi8100456.
25.   Yangouliba G. I., Kwawuvi D., Almoradie A. (2020) Suitable land assessment for rice crop in Burkina Faso using GIS, Remote Sensing and Multi Criteria Analysis. Journal of Geographic Information System, no. 12, pp. 683–696. DOI: 10.4236/jgis.2020.126039.
Citation:
Pavlova V.A., 
Stepanova E.A., 
Uvarova E.L., 
(2023) Sequential design of a multi-level information base for land inventory. Geodesy and cartography = Geodezia i Kartografia, 84(3), pp. 43-54. (In Russian). DOI: 10.22389/0016-7126-2023-993-3-43-54
Publication History
Received: 10.02.2022
Accepted: 15.03.2023
Published: 20.04.2023

Content

2023 March DOI:
10.22389/0016-7126-2023-993-3