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The paper is devoted to the consideration of the centralised architecture of control and train safety systems using digital radio data transmission channel, centralised architecture based on the application of cloud technologies and decentralised architecture. A complete ideal centralised architecture uses the principle of placing all the algorithms of the control and safety system on a central server. In a centralised architecture, the server has a database of the line with information on all its parameters, including control objects, permanent speed limits, objects in transit: complexes of technical means of control over the condition of rolling stock, control and dimensional devices, automatic crossing signalling and others. The architecture using cloud technologies also has a single database, but all data collection, analysis, data processing and train traffic control functions are concentrated on a central server platform located in specialised railway data processing centres and in a single dispatch centre, which can be geographically dispersed and interconnected by a single data transmission network. The article considers a decentralised architecture, which assumes the absence of any logical functions ensuring traffic safety on the side of fixed infrastructure devices. The purpose of this article is to develop architectures and justify the feasibility of their application. Technical solutions developed by different companies differ in implementation algorithms, applied interfaces, structural and architectural solutions and local operating conditions, which is a great inconvenience for operating personnel, as well as for making changes to the hardware and software part of the systems when changing track development and infrastructure elements. The practical significance of the article lies in the justification of the expediency of bringing to a unified architecture and a unified data format and unified interfaces of the train traffic safety system components.

This article touches upon the energy efficiency of train traction at Russian Railways. The relevance of scientific research in this issue has been substantiated. Requirements for organizational and technical measures implemented to improve the energy efficiency of train traction are given. The groups of factors that actually affect energy efficiency indicators have been identified. The creation of an intelligent system for monitoring and planning energy efficiency of train traction is proposed. The goals and objectives of creating such a system are formulated. The main features and classes of intelligent systems in the context of their application for solving the problems indicated in the article are described. The functional diagram of the proposed system and its description are given.