Synthesis of Self-Checking Circuits for Train Route Traffic Control at Intermediate Stations with Control of Calculations Based on Weight-Based Sum Codes

Author:

Efanov Dmitry V.1ORCID,Pashukov Artyom V.2,Mikhailiuta Evgenii M.1,Khóroshev Valery V.2ORCID,Abdullaev Ruslan B.3,Plotnikov Dmitry G.1,Banite Aushra V.1,Leksashov Alexander V.1,Khomutov Dmitry N.1,Baratov Dilshod Kh.3,Ruziev Davron Kh.3

Affiliation:

1. Laboratory “Industrial Stream Data Processing Systems”, Higher School of Mechanical Engineering, Material and Transport Institute, Peter the Great St. Petersburg Polytechnic University, St. Petersburg 195251, Russia

2. “Automation, Remote Control and Communication on Railway Transport” Department, Russian University of Transport, Moscow 127994, Russia

3. “Automation and Remote Control” Department, Tashkent State Transport University, Tashkent 100167, Uzbekistan

Abstract

When synthesizing systems for railway interlocking, it is recommended to use automated models to implement the logic of railway automation and remote control units. Finite-state machines (FSMs) can be implemented on any hardware component. When using relay technology, the functional safety of electrical interlocking is achieved by using uncontrolled (safety) relays with a high coefficient of asymmetry of failures in types 1 → 0 and 0 → 1. When using programmable components, the use of backup and diverse protection methods is required. This paper presents a flexible approach to synthesizing FSMs for railway automation and remote control units that offer both individual and route-based control. Unlike existing solutions, this proposal considers the pre-failure states of railway automation and remote control units during the finite-state machine synthesis stage. This enables the implementation of self-checking and self-diagnostic modules to manage automation units. By increasing the number of states for individual devices and considering the states of interconnected objects, the transition graphs can be expanded. This expansion allows for the synthesis of the transition graph of the control subsystem and other systems. The authors used a field-programmable gate array (FPGA) to implement a finite-state machine. In this case, the proposal is to encode the states of a finite-state machine using weight-based sum codes in the residue class ring based on a given modulus. The best coverage of errors occurring at the outputs of the logic converter in the structure of the FSM can be ensured by selecting the weighting coefficients and the value of the module. This paper presents an example of synthesizing an FPGA-based FSM using state encoding through modular weight-based sum codes. The operation of the synthesized device was modeled. It was found to operate according to the same algorithm as the real devices. When synthesizing self-checking and self-controlled train control devices, it is recommended to consider the solutions proposed in this paper.

Funder

Ministry of Science and Higher Education of the Russian Federation as part of the World-class Research Center program: Advanced Digital Technologies

Publisher

MDPI AG

Reference25 articles.

1. Theeg, G., and Vlasenko, S. (2020). Railway Signalling & Interlocking, PMC Media House GmbH. [3rd ed.].

2. Efanov, D., Lykov, A., and Osadchy, G. (October, January 29). Testing of Relay-Contact Circuits of Railway Signalling and Interlocking. Proceedings of the 15th IEEE East-West Design & Test Symposium (EWDTS’2017), Novi Sad, Serbia.

3. Railway Interlockings—A Review of the Current State of Railway Safety Technology in Europe;Promet Traffic Transp.,2022

4. Dobiáš, R., and Kubátová, H. (September, January 31). FPGA Based Design of Railway’s Interlocking Equipment. Proceedings of the EUROMICRO Symposium on Digital System Design, Rennes, France.

5. Dobias, R., Konarski, J., and Kubatova, H. (2008, January 3–5). Dependability Evaluation of Real Railway Interlocking Device. Proceedings of the 2008 11th EUROMICRO Conference on Digital System Design Architectures, Methods and Tools, Parma, Italy.

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