№ | Author name | position | Name of organisation |
---|---|---|---|
1 | Kurbanov J.F. | Dotsent | Tashkent State Transport University |
2 | Rixsiyev D.X. | Dotsent | Tashkent State Transport University |
3 | Ahadov A.M. | Katta o'qituvchi | SUE “Tashkent metro” |
№ | Name of reference |
---|---|
1 | 1. Shamanov V. I. (2016). Generalised mathematical body of the operational process of automation and remote-control system [Obobshchennaya matematicheskaya model’ processa ehkspluatacii sistem avtomatiki i telemekhaniki]. Automation on transport [Avtomatika na transporte], vol. 2, issue 2. – Pp. 163–179. |
2 | 2. Sapozhnikov Val. V., Sapozhnikov Vl. V., Shamanov V. I. (2003). Reliability of railway automation remote control and communication [Nadezhnost’ sistem zheleznodorozhnoj avtomatiki, telemekhaniki i svyazi]. Moscow, Route [Marshrut]. – 263 p. |
3 | 3. Volodarskiy V. A. (2017) Strategii, kriterii i raschet periodichnosty zamen apparatury avtmatiky i telemekhaniky [Strategies, criteria and calculation of change interval for automation and remote-control equipment]. Avtomatika na transporte [Transport automation], vol. 3, no. 2, pp. 165–177. (In Russian) |
4 | 4. Soroko V.I. Equipment for railway automation and telemechanics: reference book. In 2 books. / V. I. Soroko, V. A. Milyukov. – 3rd ed. – M.: NPF “Planet”, 2000. – 960 p. |
5 | 5. Efanov D.V. Ensuring traffic safety through technical diagnostics and monitoring of railway automation and remote control devices / D.V. Efanov, P.A. Plekhanov // Transport of the Urals. – 2011. – No. 3. – P. 44–48. |
6 | 6. Belishkina T. A. (2016). Features of confi rmation of conformity to the requirements of railway automation and remote-control safety during the transition period after acceptance of technical regulations of the Customs Union [Osobennosti podtverzhdeniya sootvetstviya trebovaniyam bezopasnosti zheleznodorozhnoy avtomatiki i telemehaniki v perehodniy period posle prinyatiya Texnicheskih reglamentov Tamozhennogo soyuza], Transport automation [Avtomatika na transporte], vol. 2, N 2. – Pp. 208–227. |
7 | 7. Markov D. S., Nasedkin O. A., Vasil’ev D. A., Butuzov M. A. (2017). Terminological peculiarities of stages of railway automation and remote-control safety development and proving [Terminologicheskie osobennosti etapov razrabotki i dokazatel`stva bezopasnosti zheleznodorozhnoj avtomatiki i telemexaniki], Transport automation [Avtomatika na transporte], N 3. – Pp. 368–379. |
8 | 8. Sapozhnikov Val. V., Sapozhnikov Vl. V., Khristov Kh. A., Gavzov D. V. Methods for building up safe microelectronic systems of railway automation. Under the editorship of Vl. V. Sapozhnikov. Moscow, Transport, 1995, 272 p. |
9 | 9. Shabalin A. N. Results of the use and prospects for the development of advanced technologies for servicing RACS devices // Automation and telemechanics in railway transport.Sat. report V International scientific-practical conf. "Trans RACS -2010". Rostov n/a. 2010. ISBN 978-5-888-297-4. pp. 81–89. |
10 | 10. Instructions for the technical operation of alarm, centralization and interlocking devices and systems (SCB) / TsSh-720-09. 2009. 99 p. |