Abstract
Demonstrated is the experience of developing a model of the integrated system of hydrological modeling based on the use of the operational data of the Roshydromet automated observational network and of the prognostic data of weather models. The system is based on the Open Modeling Interface (OpenMI). The major blocks of the system are data sources, hydrometeorological models, and spatial data on the catchment needed for predicting the river runoff formation process in the real-time mode. To construct the components of the data support, modern standards and techniques in the area of hydrology are used. It is demonstrated that this approach is a promising technical solution and opens up good possibilities for obtaining new scientific results.
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References
A. N. Bugaets, Development of Methods for Defining Structural and Hydrographic Characteristics Using DTM Data for the Hydrological Modeling, Abstracts of Candidate’s Thesis (Russian State Hydrometerol. Univ., St. Petersburg, 2011) [in Russian].
A. N. Bugaets, B. I. Gartsman, S. A. Krasnopeev, and N. D. Bugaets, “An Experience of Updated Hydrological Network Data Processing Using the CUAHSI HIS ODM Data Management System,” Meteorol. Gidrol., No. 5 (2013) [Russ. Meteorol. Hydrol., No. 5, 38 (2013)].
N. F. Vel’tishchev and V. D. Zhupanov, Information about the WRF-NMM General-Use Model, Ed. by V. A. Antsypovich (Federal Service for Hydrometeorology and Environmental Monitoring, Main Computing Center, Moscow, 2007) [in Russian].
B. I. Gartsman, Rainfall Floods on the Rivers in the South of the Far East: Methods of Computation, Forecasting, and Risk Assessment (Dal’nauka, Vladivostok, 2008) [in Russian].
M. B. Abbott, J. C. Bathurst, J. A. Cunge, et al., “An Introduction to the European Hydrologic System—Systeme Hydrologique Europeen, SHE, 2: Structure of a Physically-based, Distributed Modeling System,” J. Hydrology, 87 (1986).
G. Bloschl and M. Sivapalan, “Scale Issues in Hydrological Modelling: A Review,” Hydrol. Processes, 9 (1995).
J. L. Goodall, B. Robinson, and A. M. Castronova, “Modeling Complex Water Resource Systems with Service-oriented Computing,” Environ. Model. and Soft., No. 5, 26 (2011).
J. B. Gregersen, P. J. A. Gijsbers, and S. J. P. Westen, “OpenMI: Open Modelling Interface,” J. Hydroinformatics, No. 3, 9 (2007).
K. T. Lee and B. A. Yen, “Geomorphology and Kinematic-wave Based Hydrograph Deviation,” J. Hydr. Engrg., ASCE, No. 1, 123 (1997).
D. R. Maidment, Arc Hydro: GIS for Water Resources (ESRI Press, New York, 2002).
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Original Russian Text © A.N. Bugaets, 2014, published in Meteorologiya i Gidrologiya, 2014, No. 7, pp. 93–105.
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Bugaets, A.N. Using the OpenMI standard for developing integrated systems of hydrological modeling. Russ. Meteorol. Hydrol. 39, 498–506 (2014). https://doi.org/10.3103/S1068373914070097
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DOI: https://doi.org/10.3103/S1068373914070097