PRINCIPAL APPROACHES TO CREATING GEOINFORMATION SYSTEM OF RENEWABLE ENERGY SOURCES IN UKRAINE

Authors

  • Borys Busygin Dnipro University of Technology
  • Serhii Nikulin Dnipro University of Technology
  • Kateryna Sergieieva Dnipro University of Technology
  • Olga Korobko Dnipro University of Technology

DOI:

https://doi.org/10.31649/1999-9941-2021-51-2-4-11

Keywords:

geoinformation system, geoinformation technology, renewable energy sources, data mining

Abstract

The approaches to geoinformation technology (GIS-technology) and geoinformation system tools creation are proposed for detecting and analyzing the renewable energy sources (RES) areas in Ukraine. The main components of GIS-technology are formulated. They are based on methods, models, and technologies of integrated analysis of statistical and aerospace data in order to create on this basis the tools of a specialized geoinformation system, taking into account the WEB-oriented approach. The presented components of GIS-technology are intended to create new software and analytical tools based on geoinformation systems and technologies, as well as other spatial modeling tools in the tasks of assessing the prospects of Ukrainian territories in terms of the feasibility of RES power facilities placing.

Author Biographies

Borys Busygin , Dnipro University of Technology

Doctor of Technical Sciences, Professor, Professor of the Department of Information Technologies and Computer Engineering

Serhii Nikulin, Dnipro University of Technology

Doctor of Geological Sciences, Associate Professor, Professor of the Department of Information Technologies and Computer Engineering

Kateryna Sergieieva, Dnipro University of Technology

Candidate of Technical Sciences, Associate Professor, Associate Professor of the Department of Information Technologies and Computer Engineering

Olga Korobko, Dnipro University of Technology

Assistant, Head of the Laboratory of the Department of Information Technologies and Computer Engineering

References

«REMAP 2030 – Renewable Energy Prospects for Ukraine», Abu Dhabi: IRENA, 46 p., 2015.

B. S. Busygin, K. L. Sergieieva, «GIS RES in Ukraine – myth or reality?» in Proc. the 17th Interna-tional Conference on Geoinformatics – Theoretical and Applied Aspects, Kyiv, Ukraine, 2018, pр.1-7. – Access mode: https://doi.org/10.3997/2214-4609.201801751.

S. O. Kudria, «Stan ta perspektyvy rozvytku vidnovliuvanoi enerhetyky v Ukraini», Visnyk NAN Ukrainy, 12, pp. 19-26, 2015.

J. R. Oakleaf, C. M. Kennedy, S. Baruch-Mordo, J.S. Gerber, P.C. West, J.A. Johnson, J. Kiesecker, «Mapping global development potential for renewable energy, fossil fuels, mining and agriculture sectors», Scientific data, 6(1), рp. 1-17, 2019.

«REN21 Global Status Report», Paris: REN21 Secretariat, 367 p., 2020. – Access mode: https://www.ren21.net/wp-content/uploads/2019/05/gsr_2020_full_report_en.pdf

M. M. Tymkiv, D. V. Kasiianchuk, «Analiz vidnovliuvalnykh dzherel enerhii na terytorii Ivano-Frankivskoi oblasti z vykorystanniam heoinformatsiinykh system», Ekolohichna bezpeka ta zbalansovane resursokorystannia, 2, pр. 153-159, 2017.

«REN21 UNECE Renewable Energy Status Report», Paris: REN21 Secretariat, 2017. – Access mode: https://unece.org/DAM/energy/se/pp/renew/Renewable_energy_report_2017_web.pdf.

«Renewables in Ukraine», KPMG-Ukraine Ltd., July 2019, 20 р. – Access mode: https://assets.kpmg/content/dam/kpmg/ua/pdf/2019/07/Renewables-in-Ukraine-2019.pdf

R. Avtar, N. Sahu, A.K. Aggarwal, S. Chakraborty, A. Kharrazi, A.P. Yunus, J. Dou, T.A. Kurniawan, «Exploring Renewable Energy Resources Using Remote Sensing and GIS – A Review», Resources, 8, р. 149, 2019. – Access mode: https://www.mdpi.com/2079-9276/8/3/149.

B. P. Sah, P. Wijayatunga, «Geographic Information System-Based Decision Support System for Re-newable Energy Development: An Indonesian Case Study», ADB Sustainable Development Working Paper Series, 49, 42 р., 2017.

V. Zatserkovnyi, N. Oberemok, A. Puzyk, «Geoinformation modeling in the problems of renewable energy», NTU "KhPI" Bulletin: Series "New Solutions in Modern Technologies", 1285(9), p. 118-127, 2018.

L. Matejicek, «Assessment of Energy Sources Using GIS», Springer, 2017. – Access mode: https://www.springer.com/gp/book/9783319526935.

Y. Sun, R. Wang, J. Li, J. Liu, «GIS-based multiregional potential evaluation and strategies selection framework for various renewable energy sources: a case study of eastern coastal regions of China», Energy Science & Engineering, 3, рp. 123-140, 2017.

O. Prilepova, Q. Hart, J. Merz, N. Parker, V. Bandaru, B. Jenkins, «Design of a GIS-Based WEB Application for Simulating Biofuel Feedstock Yields», ISPRS International Journal of Geo-Information, 3, pр. 929-941, 2014.

B. S. Busygin, V. V. Vasilev, K. L. Sergieieva, «About development of geoinformation system for re-newable energy in Ukraine», IV Mizhnarodnoi naukovo-praktuchna konferentsya "Nadrokorystuvannia v Ukraini. Perspektyvy investuvannia", Truskavets, рp. 375-380, 2017.

B. S. Busygin, S. L. Nikulin, «Specialized geoinformation RAPID system: features, structure, tasks», Geoinformatika, 1, рp. 22-36, 2016.

Downloads

Abstract views: 211

Published

2021-10-21

How to Cite

[1]
B. . Busygin, S. Nikulin, K. Sergieieva, and O. Korobko, “PRINCIPAL APPROACHES TO CREATING GEOINFORMATION SYSTEM OF RENEWABLE ENERGY SOURCES IN UKRAINE”, ІТКІ, vol. 51, no. 2, pp. 4–11, Oct. 2021.

Issue

Vol. 51 No. 2 (2021): Information technology and computer engineering

Section

Information technology and coding theory

Metrics

Downloads

Download data is not yet available.