Abstract
The paper presents the structure of information support technology and algorithms of the decision-making process in managing the Volga–Kama cascade of reservoirs, as well as the results of implementing into the operational practice of a technology for regulating reservoirs and the prospects of its use for solving water problems.
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Antokhina, E.N. and Zhuk, V.A., Application of the ECOMAG model to simulation of river runoff from watersheds differing in their area, Vodn. Khoz. Rossii: Probl., Tekhnol., Upravl., 2011, no. 4, pp. 17–32.
Bednaruk, S.E., Variability of inflow to the reservoirs of the Volga–Kama cascade of hydroelectric power stations: natural cyclicity and influence of climate change, Proc. British-Russian Conference: Hydrological Consequences of Climate Change, Barnaul, 2009, pp. 166–168.
Bednaruk, S.E. and Motovilov, Yu.G., Technology of information support in the management of water reservoirs cascades, Gidrotekhn. Stroit., 2017, no. 7, pp. 22–35.
Dilman, N.A., Mastryukova, A.V., Bednaruk, S.E., and Chukanov, V.V. Development of dynamic volume nomograms using hydrodynamic simulation, Uglich reservoir, Prirodoobustroistvo, 2015, no. 2, pp. 69–73.
Gelfan, A.N. and Motovilov, Yu.G., Long-term hydrological forecasting in cold regions: retrospect, current status and prospects. Geography Compass, 2009, vol. 3, no. 5, pp. 1841–1864.
Khamitov R.Z., Seliverstova M.V., Shevchuk A.V., Ryzhkov Yu.A., Rezul’taty deyatel’nosti Rosvodresursov v 2004–2007 godah i zadachi na perspektivnyj period do 2020 goda (Results of the Activity of the Federal Agency for Water Recourses in 2004–2007 and forward-looking up to 2020 tasks). Upravlenie vodnymi resursami Rossii (Water Resources Management in Russia), part 11, Moscow, AMA-PRESS, 2008, pp. 266–282.
Kuchment, L.S., Demidov, V.N., and Motovilov, Yu.G., Formirovanie rechnogo stoka: fisikomatematicheskie modeli (River Runoff Formation: Physically Based Models). Moscow, Nauka, 1983.
Kompleksnyi analiz vozdeistviya regulirovaniya stoka reki Volgi na ekosistemy poimy i del’ty (Comprehensive Analysis of the Impact of Flow Regulation of the Volga River Ecosystems in Floodplains and Deltas), Leummens, H., Ed., Astrakhan–Volgograd, UNESCO, 2004.
Motovilov, Yu.G., Hydrological simulation of river basins at different spatial scales: 1. Generalization and averaging algorithms. Water Resour., 2016, vol. 43, no. 3, pp. 429–437.
Motovilov, Yu.G., Hydrological simulation of river basins at different spatial scales: 2. Test results. Water Resour., 2016, vol. 43, no. 5, pp. 743–753.
Motovilov, Yu., ECOMAG: A Distributed Model of Runoff Formation and Pollution Transformation in River Basins, IAHS Publ., 361, 2013, pp. 197–205.
Motovilov, Yu.G., Dmitriev E.S., Bednaruk, S.E., Gerasimov, S.V., and Egorov V.M., Automated information and control system (AICS) “Water resources,” Vodnye Resursy. Problemy i Puti Ikh Resheniya, Yoshkar-Ola, 2003, pp. 17–40.
Motovilov, Yu.G., Gottschalk, L., Engeland, K., and Rodhe, A., Validation of a distributed hydrological model against spatial observation, Agric. Forest Meteor., nos. 98–99, 1999, pp. 257–277.
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Bednaruk, S.E., Motovilov, Y.G. Information Support Technology in Managing the Volga–Kama Cascade of Reservoirs. Water Resour 45 (Suppl 1), 18–28 (2018). https://doi.org/10.1134/S0097807818050287
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DOI: https://doi.org/10.1134/S0097807818050287