Abstract
Regina computer system for intelligent monitoring, diagnostics, and management of railway power supply systems
Highlights
Modern systems of continuous computer monitoring of parameters displaying normal, abnormal, and transient modes allow direct observation of the dynamic characteristics of the power system
The technology of modern synchronous vector measurements contributed to the expansion of the concept of "smart energy", as the basis for the innovative transformation of traction power grids and the creation of intelligent power supply systems of a new generation, which are focused on the formation and accumulation of new knowledge in the field of railway energy to create modern energy-saving technologies, optimize power supply and improve quality functioning [11,12]
The analysis of the latest scientific research carried out by domestic and foreign scientists showed that in scientific publications, not enough attention is paid to the issues of cybersecurity, creating mathematical models and methods of organizing computer systems for intelligent monitoring to study the entire dynamics of anomalous and transient processes occurring in power systems
Summary
Modern trends in scientific research in the development of the world electric power industry, the energy of railway transport, as well as research on the key directions of the evolution of innovative transformation of power supply systems have shown that the solution to the complex problem of optimizing power supply, creating energy-saving technologies and organizing high-speed failure-free transportation is possible by intellectualizing fast technological processes of power consumption [1,2]. The technology of modern synchronous vector measurements contributed to the expansion of the concept of "smart energy", as the basis for the innovative transformation of traction power grids and the creation of intelligent power supply systems of a new generation, which are focused on the formation and accumulation of new knowledge in the field of railway energy to create modern energy-saving technologies, optimize power supply and improve quality functioning [11,12] This fact is confirmed, first of all, by the fact that synchronous measurements of the entire set of parameters of the power system, recorded in the process of slippery computer monitoring, opened up the opportunity to significantly improve the information content of primary data displaying anomalous or transient modes [13]. Insufficient attention has been paid to methods for determining the whole depth of information content of the registered, based on synchronous vector measurements, multidimensional primary information [14, 15]
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