bbk 000000

UDC 65.012.45:628.1/.2

Obuzdin S. Iu., Alekseev A. V., Novitskii N. N.

The concept of enterprise consolidated information area
and its approbation in «Vodokanal» MUE of Irkutsk

Summary

A brief description of approaches to IT development of the operators of public utilities pipelines is presented. The main task of developing intelligent pipeline systems is the harmonization of the requirements and capabilities of all the parties to the processes of receiving and conveying the operating medium, delivering and using the services. Herewith a consumer is assigned the part of an active full-fledged stakeholder who can influence the scope of services, their quality and price. The key objective of improving the degree of intellectuality of pipeline systems is ensuring the high level of their technologic controllability. The necessary condition of achieving the set goal is the availability of the consolidated information area as a cornerstone factor. The basic provisions of the concept of the enterprise consolidated information area are presented and the experience of its approbation in «Vodokanal» MUE of Irkutsk is described. Compared to the typical approach to the development of the management information system («top-down») that assumes data centralization within the frames of the unified information system, a flexible approach is proposed that is based on the data resource integration («bottom-up»). Herewith the information support of the decision-making processes related to the operation control is put a premium on. The acceptance of this concept by water and wastewater providers will lay the groundwork for establishing the intersystem and intraurban co-operation, integration with external structures and services (municipal administration, supervisory authorities, online resources for customer relations etc.), provide for improving the general level of controllability and concurrence of the decisions made which will result in the improvement of the efficiency and service quality.

Key words

information technologies , automated control system , enterprise consolidated information area , data centralization , integration of information resources

The further text is accessible on a paid subscription.
For authorisation enter the login/password.
Or subscribe

REFERENCES

1. Kontseptsiia Energeticheskoi strategii Rossii na period do 2030 g.: Prilozhenie k zhurnalu «Energeticheskaia politika» [The concept of the Energy Strategy of Russia for the period until 2030. Appendix to «Energeticheskaia Politika» Journal. Moscow, GUIES Publ., 2007, 116 p.].
2. Novitskii N. N. [Intellectual pipeline systems: arguments, contents, prospects]. Kommunal’noe Khoziaistvo Gorodov. «Tekhnicheskie Nauki i Arkhitektura» Series. Ukraine, Kharkov, 2011, issue 101, pp. 456–464. (In Russian).
3. Voropai N. I., Saneev B. G., Senderov S. M., Stennikov V. A., Novitskii N. N., Il’kevich N. I., Kler A. M. [Power economy of the future: systemic problems of the innovative development and management]. Collected works of «Power Economy of Russia in the XXI century. Innovative development and Management» All-Russia Conference, September 1–3, 2015. Irkutsk, ISEM SO RAN Publ., 2015, pp. 10–21. (In Russian).
4. Novitskiy N. N., Alekseev A. V. State of the art and directions in development of the hydraulic circuit theory methods for modelling and technological control of water supply systems. In proceedings of the 11th International Conference Computing and Сontrol for the Water Industry. University of Exeter, UK, 2011, v. 3, pp. 901–906.
5. Novitskii N. N., Sukharev M. G., Teviashev, A. D. et al. Truboprovodnye sistemy energetiki: metodicheskie i prikladnye problemy matematicheskogo modelirovaniia [Energy pipeline systems: methodical and application problems of mathematical mo­deling]. Novosibirsk, Nauka Publ., 2015, 476 p.
6. Mel’nik E. A., Hamalainen  M. M., Smirnova S. V., Iudin M. Iu. [Hydraulic model in the water distribution network operation control in the city of Saint-Petersburg]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2012, no. 3, pp. 20–23. (In Russian).
7. Kasatkin F. Iu., Kostylev S. V. [Enterprise consolidated information area]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2010, no. 6, pp. 45–49. (In Russian).
8. Kritskii A. V., Kargapol’tsev D. S., Brusnitsyn D. N., Skorinov S. V., Shaburov D. P., Dobrazov A. E. [Firmware consolidated information area]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2015, no. 11, pp. 45–56. (In Russian).
9. Khramenkov S. V. [Mosvodokanal at the new stage of progress]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2011, no. 10, pp. 3–5. (In Russian).
10. http://gridder.ru/technologies/computers/edinoe-informacionnoe-prostranstvo-predprijatija-mif-ili-realnost/ Enterprise consolidated information area: myth or reality? (accessed 21.10.2017).
11. http://www.oracle.com/us/products/applications/ebusiness/overview/index.html Oracle E-Business Suite (accessed 21.10.2017).
12. http://solutions.1c.ru/catalog/vodokanal/features 1С:Enterprise 8. Vodokanal management (accessed 21.10.2017).
13. https://www.galaktika.ru/erp/funkcionalnost.html ERP Galaxy. Process control system (accessed 21.10.2017).
14. http://www.pandia.ru/text/77/205/80238.php Education research materials Establishing and holding masterclasses on «Computer technologies in automation and management» (accessed 21.10.2017).
15. Norenkov I. P. Osnovy avtomatizirovannogo proektirovaniia [Fundamentals of Computer Assisted Design. Moscow, MGTU im. N. E. Baumana Publ., 2009, 430 p.].
16. http://51.isem.irk.ru/angara «ANGARA» Information computer environment (accessed 21.10.2017).
17. Alekseev A. V., Novitskii N. N., Tokarev V. V., Shalaginova Z. I. [Principles of the development and software implementation for computer modeling of pipeline and hydraulic systems. Energy pipeline systems. Mathematical modeling and optimization methods]. Collection of research papers. Novosibirsk, Nauka Publ., 2007, pp. 221–230. (In Russian).
18. Alekseev A. V., Novitskii N. N., Melekhov E. S. [Information computer complex for automation of the water supply and wastewater disposal operations control]. Vestnik IrGTU, 2014, no. 6, pp. 12–18. (In Russian).
19. Alekseev A. V., Novitskii N. N. [«ANGARA» computer technology for the integration of information and computational environment in pipeline system modeling]. Nauchnyi Vestnik NGTU, 2017, no. 2, pp. 26–41. (In Russian).