USE OF GEOINFORMATION SYSTEMS FOR OPTIMISATION OF CITY MANAGEMENT

Authors

  • O. Pomortseva O.M. Beketov National University of Urban Economy in Kharkiv
  • I. Hamaiun O.M. Beketov National University of Urban Economy in Kharkiv
  • T. Nalyvaiko O.M. Beketov National University of Urban Economy in Kharkiv

DOI:

https://doi.org/10.33042/2522-1809-2024-1-182-143-150

Keywords:

geoinformation technologies, geoinformation system, database, protection of historical heritage, urban planning

Abstract

The study aims to answer how city halls and municipal departments of territorial communities can cope with numerous tasks related to providing city services. This issue is quite relevant in our time. As a solution, there has been a proposal to use geographic information systems (GIS) and a unified geodatabase to provide local governments, municipal organisations, and citizens access to reliable information about the urban area. This information has to be systematised, structured, and stored for efficient use. Experts suggest utilising a geodatabase as a primary tool for managing massive amounts of spatial information to solve these issues. The analysis shows that this is the direction that most European and American cities have chosen. As a result of the study, the authors propose the geodatabase structure for local-level urban planning documentation. It defines a set of objects, attributes, relations, and topology rules used to represent urban planning documentation in electronic form (in the form of a city GIS). Such an approach will allow for reliably storing all the diverse information necessary for the city’s life, analysing this information, and making the right management decisions. In this study, the authors analysed existing geographic information systems of some large cities. We defined weaknesses and strengths and found out based on which software products these city GIS were developed. Then, we proposed the main structural elements (layers) of the unified geospatial database of the city GIS that would ensure the solution of all issues related to the existence of a modern city. The authors prove that the combination of a clear structure of the geodatabase, convenience, and data relevance can determine the success of city GIS, making it a core tool for ensuring harmonious development and improving the quality of life in the city. Only such an approach will facilitate the creation of a technologically advanced urban environment that will meet the modern requirements and needs of citizens.

Author Biographies

O. Pomortseva, O.M. Beketov National University of Urban Economy in Kharkiv

Candidate of Technical Sciences, Associate Professor, Associate Professor at the Department of Land Administration and Geographic Information Systems

I. Hamaiun, O.M. Beketov National University of Urban Economy in Kharkiv

Bachelor of the Department of Land Administration and Geographic Information Systems

T. Nalyvaiko, O.M. Beketov National University of Urban Economy in Kharkiv

Candidate of Technical Sciences, Associate Professor, Associate Professor at the Department of Land Administration and Geographic Information Systems

References

Responsible Future. (2019, April 3). The world’s population is growing, aging and moving to cities. https://responsiblefuture.com.ua/naselennya-svitu-zrostaye-stariye-i-pereyizhdzhaye-v-mista/ [in Ukrainian]

Smirnov, Y. (2016, October 17). GIS and the city. 50° North. http://www.50northspatial.org/gis-and-the-city/

Pomortseva, O. Ye. (2018). Modeling the location of environmentally hazardous objects by geoinformation systems. Scientific notes of Taurida National V.I. Vernadsky University. Series: Technical Sciences, 29(68)(6), pt. 2, 222–227. https://tech.vernadskyjournals.in.ua/journals/2018/6_2018/part_2/43.pdf [in Ukrainian]

Kobzan, S., & Pomortseva, O. (2023). Real Estate Market of Ukraine: Practical Aspects and Trends (1st ed.). Springer. https://doi.org/10.1007/978-3-031-31248-9

Kobzan, S. M., & Pomortseva, О. Ye. (2021). Real estate market research using GIS. Trends and prospects for development. In Collection of scientific papers ‘ΛΌГOΣ’ with Proceedings of the III International Scientific and Practical Conference ‘Theoretical and empirical scientific research: concept and trends’ (vol. 3, pp. 151–156). P.C. Publishing House; European Scientific Platform. https://doi.org/10.36074/logos-10.12.2021.v3.48 [in Ukrainian]

MagneticOne Municipal Technologies. (2024). Geoinformation system of the city. https://magneticonemt.com/en/geoinformation-system-of-the-city/

James, M. R., & Robson, S. (2012). Straightforward reconstruction of 3D surfaces and topography with a camera: Accuracy and geoscience application. Journal of Geophysical Research: Earth Surface, 117(F3), F03017. https://doi.org/10.1029/2011JF002289

Goodchild, M. F. (1992).Geographical information science. International journal of geographical information systems, 6(1), 31–45. https://doi.org/10.1080/02693799208901893

Partanen, P. (2019, January 24). Best 3D model in the world improves with age. Helsinki Region Infoshare. https://hri.fi/en_gb/best-3d-model-in-the-world-improves-with-age/

Ministry of Culture and Information Policy of Ukraine. (2023, October 26). Draft recommendations on the use of geodatabase for scientific and project documentation in the field of cultural heritage protection. https://mcip.gov.ua/announcements/ministerstvo-kultury-ta-informaczijnoyi-polityky-nadaye-dlya-rozglyadu-proekt-rekomendaczij-z-vykorystannya-bazy-geodanyh-naukovo-proektnoyi-dokumentacziyi-u-sferi-ohorony-kulturnoyi-spadshhyny-2/ [in Ukrainian]

Hamaiun, I. V. (2023). Development of a geoinformation system for the city of Kramatorsk. In Proceedings of the VІI International Scientific and Practical Conference of Higher Education Students and Young Scientists ‘Prospects for the Development of Territories: Theory and Practice. Post-war Reconstruction’ (pp. 193–194). O.M. Beketov NUUE [in Ukrainian]

Beutler, G., Bauersima, I., Botton, S., Gurtner, W., Rothacher, M., & Schildknecht, T. (1989). Accuracy and biases in the geodetic application of the Global Positioning System. Manuscripta Geodaetica, 14, 28–35.

ME “KYIVTEPLOENERGO”. (2021, December 3). Kyivteploenergo is implementing a geo-information management system for the capital’s heat supply complex. https://kte.kmda.gov.ua/kyyivteploenergo-vprovadzhuye-geoinformatsijnu-systemu-upravlinnya-kompleksom-teplopostachannya-stolytsi/ [in Ukrainian]

Published

2024-04-05

How to Cite

Pomortseva, O., Hamaiun, I., & Nalyvaiko, T. (2024). USE OF GEOINFORMATION SYSTEMS FOR OPTIMISATION OF CITY MANAGEMENT. Municipal Economy of Cities, 1(182), 143–150. https://doi.org/10.33042/2522-1809-2024-1-182-143-150

Most read articles by the same author(s)

1 2 > >>