Keywords
web-oriented simulators
key competencies
e-learning
How to Cite
Abstract
The development of a training remote simulator for the staff skills and training for operational and dispatching personnel in the energy sector is consider, developed a fast-acting method for calculating the modes for remote simulators and the ways of developing a system of continuous training and advanced training in the distributed network of training centers are proposed. References 6, figures 4.
References
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Ayuev B.I., Davydov V.V., Erokhin P.M., Neuymin V.G. Computational models of flow distribution in electrical systems. M.: Flint: Nauka, 2008. 256 p.
Web resource http://energy.gov/oe/downloads/blackout-2003-final-report-august-14-2003-blackout-united-states-and-canada-causes-and
Modular object-oriented dynamic learning environment. Official. Moodle website. Access mode: https://moodle.org/ (24.09.2015).
Gurieiev V., Sanginova O. Simulation and study of modes for full-scale mode simulator for Ukrainian energy systems, 2016. 2nd International Conference on Intelligent Energy and Power Systems (IEPS’2016), June 7-11, Kyiv, Ukraine. Pp. 97–100.
Jianwei Wu Simple technique to determine the Givens-Rotation matrix in the two-source ICA problem for skewed sources. IEEE Electronic Letters. 2016. Vol. 52. No 8. Pp. 613–615.
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Copyright (c) 2017 V.О. Gurieiev, О.V. Sanginova