THEORETICAL AND METHODOLOGICAL FOUNDATIONS FOR USING SPATIAL DATA, DIGITAL CARTOGRAPHIC BASES AND GEODATABASES IN THE DESIGN OF LAND MANAGEMENT PLANS

Authors
  • Khusanova Mashhura

    Samarkand State University of Architecture and Civil Engineering named after Mirzo Ulugbek

    Author

Keywords:
Land management, spatial data, digital cartographic base, geodatabase, GIS, cadastre, geoportal, LADM, INSPIRE, land monitoring.
Abstract

This article examines the theoretical and methodological foundations for using spatial data, digital cartographic bases and geodatabases in the design of land management plans. A land management plan is interpreted not merely as a graphical project document, but as a spatial information model integrating land parcel boundaries, land-use categories, environmental and reclamation conditions, infrastructure, legal restrictions and decision-support indicators. Based on international frameworks and practices such as FAO VGGT, UN-GGIM FELA, INSPIRE, LADM and fit-for-purpose land administration, an integrated methodological model is proposed. The model organizes data acquisition, georeferencing, quality control, topological validation, spatial analysis, plan production and monitoring within a single geodatabase environment.

References

[1] FAO. Voluntary Guidelines on the Responsible Governance of Tenure of Land, Fisheries and Forests in the Context of National Food Security. Rome: FAO, 2012.

[2] UN-GGIM. Framework for Effective Land Administration (FELA). United Nations Committee of Experts on Global Geospatial Information Management, 2020.

[3] European Parliament and Council. Directive 2007/2/EC establishing an Infrastructure for Spatial Information in the European Community (INSPIRE). 2007.

[4] World Bank. Land Tenure Security for All: About the Land 2030 Umbrella. Washington, DC: World Bank, 2022.

[5] World Bank. Land 2030: Achieving Land Tenure Security for All. Program overview materials, 2025.

[6] UN-Habitat, GLTN, FIG. Fit-for-Purpose Land Administration: Guiding Principles for Country Implementation. Nairobi, 2016.

[7] ISO 19152:2012. Geographic information - Land Administration Domain Model (LADM). International Organization for Standardization, 2012.

[8] Williamson I., Enemark S., Wallace J., Rajabifard A. Land Administration for Sustainable Development. Redlands: ESRI Press, 2010.

[9] Longley PA, Goodchild MF, Maguire DJ, Rhind DW Geographic Information Systems and Science. 4th ed. Wiley, 2015.

[10] Republic of Rwanda. Rwanda launched electronic land registration certificate system: national land tenure regularization results. Official information materials.

[11] DAI. Rwanda - Support for Land Tenure Regularization: project results and good practices. DAI Global materials.

[12] Singapore Land Authority. Digitized Land Information: digital cadastral data, road network and building outline services. SLA official information.

[13] Jensen JR Remote Sensing of the Environment: An Earth Resource Perspective. 2nd ed. Pearson, 2016.

[14] Burrough PA, McDonnell RA, Lloyd CD Principles of Geographical Information Systems. Oxford University Press, 2015.

[15] DeMers MN Fundamentals of Geographic Information Systems. Wiley, 2009.

[16] Campbell JB, Wynne RH Introduction to Remote Sensing. 5th ed. Guilford Press, 2011.

[17] Zevenbergen J. Systems of Land Registration: Aspects and Effects. Netherlands Geodetic Commission, 2002.

[18] Cadastre. Cadastre in the Netherlands: land registry, cadastral surveying, topographic mapping and e-services. Institutional presentation materials, 2025.

[19] Estonian Center of Registers and Information Systems. E-Land Register portal: data on registered immovables, owners, restrictions and mortgages.

[20] Land Code of the Republic of Uzbekistan and current regulatory legal acts on land monitoring, state cadastres and land management.

Downloads
Published
2026-05-30
Section
Articles
License
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

THEORETICAL AND METHODOLOGICAL FOUNDATIONS FOR USING SPATIAL DATA, DIGITAL CARTOGRAPHIC BASES AND GEODATABASES IN THE DESIGN OF LAND MANAGEMENT PLANS. (2026). Eureka Journal of Geoscience, Materials & Resource Engineering, 2(5), 108-125. https://eurekaoa.com/index.php/9/article/view/1113