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Implementation of GIS Application for Water Company Needs
Corresponding Author(s) : Christina Mickrenska‑Cherneva
Geomatics and Environmental Engineering,
Vol. 14 No. 4 (2020): Geomatics and Environmental Engineering
Abstract
The process of designing and implementing industrial models (or GIS) for underground utility infrastructure (UUI) includes a number of activities related to the analysis of source data to identify objects, pre‑processing the initial data, creating spatial database and development of relevant graphic (maps) and text (registers) products. Nowadays, every organization needs to be flexible and able to respond in a timely and adequate manner to the changes that occur in a complex and dynamic external environment. This is the reason why the paper proposes an approach for the design and development of a geoinformation system (GIS), through the capabilities of modern software for a part of the water supply and sewerage network for the needs of Water Supply and Sewerage Berkovitsa LTD. The purpose of the paper and GIS for maintaining data on UUI is to provide access to digital data for underground utility infrastructure and their characteristics, as well as to assist in the easy creation of references to underground utility infrastructure data in digital and graphic form.
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- Ivanova I.: Otnovo za spetsializiranite karti. Minno‑geolozhki universitet “Sveti Yoan Rilski”, Sofia 2008 [Иванова И.: Отново за специализираните карти. Минно-геоложки университет “Свети Йоан Рилски”, София 2008].
- Patel J., Sinha S.K.: Geographic Information System (GIS) Web‑Based Water Pipeline Data Visualization for Decision Support. [in:] Heidrick J.W., Mihm M.S. (eds.), Pipelines 2019: Multidisciplinary Topic, Utility Engineering and Surveying, American Society of Civil Engineers, Reston 2019, pp. 95–103.
- Pavlov P.: Methods for spatial data storage and maintenance in RDBMS. [in:] 5th International Scientific Conference – SGEM2005, Conference Proceedings, 2005, pp. 693–704.
- Mika M., Siejka M., Leń P., Król Ż.: The concept of using the water cadastre databases components for the construction of multi‑dimensional cadastre in Poland. Survey Review, vol. 50 (360), 2018, pp. 201–211. https://doi.org/10.1080/00396265.2016.1263180.
- Szopińska K.: Creation of Theoretical Road Traffic Noise Model with the Help of GIS. [in:] Proceedings of the Environmental Engineering 10th International Conference Vilnius Gediminas Technical University, Vilnius, Lithuania, 27–28 April, pp. 1–8. https://doi.org/10.3846/enviro.2017.122.
- Siejka M., Ślusarski M., Zygmunt M.: 3D+time Cadastre, possibility of implementation in Poland. Survey Review, vol. 46 (335), 2014, pp. 79–89. https://doi.org/10.1179/1752270613Y.0000000067.
- Geographic information – Land Administration Domain Model (LADM). ISO 19152:2012.
- Valchinov V., Aleksandrov B.: Kolichestven kontrol na surovini i materiali chrez geodezicheski metodi. Geomedia [Вълчинов В., Александров Б.: Количествен контрол на суровини и материали чрез геодезически методи. Геомедия], vol. 6, 2012, pp. 8–15.
- Kunchev I.: Geo‑informatsionni aspekti na informatsionnoto modelirane v profesionalno napravlenie „Arhitektura, Stroitelstvo i Geodezia”. Godishnik na Universiteta po Arhitektura, Stroitelstvo i Geodezia Sofia [Кунчев И.: Гео-информационни аспекти на информационното моделиране в професионално направление „Архитектура, Строителство и Геодезия”. Годишник на Университета по Архитектура, Строителство и Геодезия София], vol. 52, issue 2, 2019, pp. 669–680.
References
Ivanova I.: Otnovo za spetsializiranite karti. Minno‑geolozhki universitet “Sveti Yoan Rilski”, Sofia 2008 [Иванова И.: Отново за специализираните карти. Минно-геоложки университет “Свети Йоан Рилски”, София 2008].
Patel J., Sinha S.K.: Geographic Information System (GIS) Web‑Based Water Pipeline Data Visualization for Decision Support. [in:] Heidrick J.W., Mihm M.S. (eds.), Pipelines 2019: Multidisciplinary Topic, Utility Engineering and Surveying, American Society of Civil Engineers, Reston 2019, pp. 95–103.
Pavlov P.: Methods for spatial data storage and maintenance in RDBMS. [in:] 5th International Scientific Conference – SGEM2005, Conference Proceedings, 2005, pp. 693–704.
Mika M., Siejka M., Leń P., Król Ż.: The concept of using the water cadastre databases components for the construction of multi‑dimensional cadastre in Poland. Survey Review, vol. 50 (360), 2018, pp. 201–211. https://doi.org/10.1080/00396265.2016.1263180.
Szopińska K.: Creation of Theoretical Road Traffic Noise Model with the Help of GIS. [in:] Proceedings of the Environmental Engineering 10th International Conference Vilnius Gediminas Technical University, Vilnius, Lithuania, 27–28 April, pp. 1–8. https://doi.org/10.3846/enviro.2017.122.
Siejka M., Ślusarski M., Zygmunt M.: 3D+time Cadastre, possibility of implementation in Poland. Survey Review, vol. 46 (335), 2014, pp. 79–89. https://doi.org/10.1179/1752270613Y.0000000067.
Geographic information – Land Administration Domain Model (LADM). ISO 19152:2012.
Valchinov V., Aleksandrov B.: Kolichestven kontrol na surovini i materiali chrez geodezicheski metodi. Geomedia [Вълчинов В., Александров Б.: Количествен контрол на суровини и материали чрез геодезически методи. Геомедия], vol. 6, 2012, pp. 8–15.
Kunchev I.: Geo‑informatsionni aspekti na informatsionnoto modelirane v profesionalno napravlenie „Arhitektura, Stroitelstvo i Geodezia”. Godishnik na Universiteta po Arhitektura, Stroitelstvo i Geodezia Sofia [Кунчев И.: Гео-информационни аспекти на информационното моделиране в професионално направление „Архитектура, Строителство и Геодезия”. Годишник на Университета по Архитектура, Строителство и Геодезия София], vol. 52, issue 2, 2019, pp. 669–680.