ARCHITECTURE OF AUTOMATED DIGITAL CONTROL FOR RAILWAY SIGNALING DEVICES
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The article presents the development and description of an automated system for accounting and control of signaling devices in railway automation and telemechanics. The study focuses on the creation of an electronic document management system (EDTD), its formalized scheme, and a functional model ensuring automation of document processing in organizations. The system provides key capabilities such as registration, distribution, monitoring of documents, execution control of related orders, reporting, and secure message exchange. A client–server architecture was selected to ensure multi-user operation, information integrity, data confidentiality, and centralized archiving. The server program functions as the core element, handling requests, managing the database, processing queries, and ensuring user registration. It also supports logging, data protection, and multi-threaded client interaction via IP. Administrators are responsible for system configuration, user rights management, error monitoring, and backup creation, while users perform document registration, editing, and execution tasks according to assigned roles. By integrating a secure registration tool and customizable database connections, the system minimizes dependence on external software. The results demonstrate that the proposed system enhances efficiency, transparency, and control in managing railway automation documentation, ensuring reliability of processes and compliance with organizational requirements.
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1.D.Kh.Baratov, A.Kh. Boltaev, E.T.Astanaliev (2019) “Functional Support of the Automated Accounting System and Control of Devices in Railway Automation Telemechanics” // International Journal of Advanced Research in Science, Engineering and Technology. Vol. 6, Issue 3, March 2019. P.8572-8580.
2.Bulavsky P.E. Conceptual model of electronic document management of technical documentation // Transport of the Russian Federation. - 2011. - No. 1 (32). - p. 60-63.
3.Bulavsky P.E. Synthesis of a formalized scheme of electronic document management systems of railway automation and telemechanics / Bulavsky P.E., Markov D.S. // Izvestia PGUPS. - 2010. - Issue. No. 4. - p. 63–74.
4.Bulavsky P.E., Markov D.S., Sokolov VB, Konstantinova T.Yu. Formalization of the algorithmic description of systems for ensuring the life cycle of railway automation and telemechanics // Automation in transport. 2015. No. 4 (Volume 1). p.418-432.
5.Dilshod Baratov, Elmurod Astanaliev. Using innovative technologies of electronic technical document management for railway automation and telemechanics. International Journal on Orange Technologies (IJOT). Volume 3 Issue 1, 2021, ISSN: 2615-7071, pp. 7-10.
6.Krukovsky M.Yu. Graph model of composite document flow // Mathematical machines and systems. - 2005. - No. 3. - p. 149-163.
7.Malyutin A. G., Lavrukhin A. A., Okishev A. S. Architecture of the automated information system for monitoring and resources accounting //Journal of Physics: Conference Series. – IOP Publishing, 2018. – Т. 1050. – №. 1. – С. 012050.
8.Sokolova M. S., Agapitov E. B., Mikhaylovskiy V. N. Improving the Efficiency of Using Automated Accounting Systems and Management of Secondary Energy Resources in a Metallurgical Plant //2019 IEEE Russian Workshop on Power Engineering and Automation of Metallurgy Industry: Research & Practice (PEAMI). – IEEE, 2019. – С. 42-48.
9.Aziz H. M. et al. Synthesis study on transitions in signal infrastructure and control algorithms for connected and automated transportation. – Oak Ridge National Lab.(ORNL), Oak Ridge, TN (United States), 2017. – №. ORNL/TM-2017/280.
10.Chipriyanova G., Krasteva-Hristova R. Technological aspects of accounting automation system as a decision support system //Environment. Technologies. Resources. Proceedings of the International Scientific and Practical Conference. – 2023. – Т. 2. – С. 28-33.
11.Orobchuk B. et al. Development of simulator automated dispatch control system for implementation in learning process //2017 9th IEEE International Conference on Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications (IDAACS). – IEEE, 2017. – Т. 1. – С. 210-214.