Russian Federation
Russian Federation
Russian Federation
Russian Federation
VKA named after A. F. Mozhaisky (Department of Mathematics and Software, Professor)
Russian Federation
Russian Federation
UDK 004.89 Прикладные системы искусственного интеллекта. Интеллектуальные системы, обладающие знаниями
Trends in the development of computer-based interlocking systems are considered. The main emphasis when creating them is on achieving safety indicators no worse than those of relay analogues. The subsequent steps of improving the systems determined the directions of expansion of information support and automation of management. The main advantage of computer systems was the software implementation of a number of traditional functions that required the installation of additional relay equipment. The use of digital joints between the components of the system makes it possible to design a distributed structure of the computer-based interlocking systems on the basis of standard equipment, ensuring the rational use of computing power. Modern intelligent technologies as part of the tasks solved in the computer-based interlocking systems provide not only the choice of the best technological solutions for the organization of the station, but also allow you to exclude incorrect actions of personnel, free them from performing routine operations.
railway automation and remote controlling systems, computer-based interlocking systems, intelligent control functions, decision-making support system
1. Sistemy mikroprocessornoy centralizacii. Mezhdunarodnyy obzor // Zheleznye dorogi mira. - 1997. - № 8. - S. 8-17.
2. Sapozhnikov Vl. V. Analiz komp'yuternyh sistem operativnogo upravleniya ustroystvami EC / Vl. V. Sapozhnikov, A. B. Nikitin // Avtomatika, svyaz', informatika. - 2006. - № 6. - S. 6-8.
3. Gavzov D. V. Releyno-processornaya centralizaciya EC-MPK / D. V. Gavzov, A. B. Nikitin // Avtomatika, svyaz', informatika. - 2002. - № 4. - S. 12-15.
4. Krylov A. Yu. Sistema upravleniya dvizheniem poezdov «Dialog» / A. Yu. Krylov i dr. // Avtomatika, svyaz', informatika. - 2004. - № 6. - S. 23-26.
5. Dolgiy I. D. Vozmozhnosti releynyh i processornyh sistem upravleniya stanciey / I. D. Dolgiy // Avtomatika, svyaz', informatika. - 2010. - № 5. - S. 25-27.
6. Kamenev A. I. Sistema upravleniya malymi stanciyami RPC-DON / A. I. Kamenev, I. D. Dolgiy, A. G. Kul'kin // Avtomatika, svyaz', informatika. - 2007. - № 5. - S. 5-7.
7. Yacenko V. V. Sistema mikroprocessornoy centralizacii EC-EM i avtoblokirovki / V. V. Yacenko // Avtomatika, svyaz', informatika. - 2004. - № 6. - S. 10-13.
8. Protcner S. Sistema mikroprocessornoy centralizacii MPC-MZ-F na osnove platformy Simis dlya Rossiyskih zheleznyh dorog / S. Protcner, S. V. Vlasenko, Yu. S. Smagin i dr. // Zheleznye dorogi mira. - 2010. - № 10. - S. 56-60.
9. Protcner S. Sistemy mikroprocessornoy centralizacii kompanii Siemens v Litve / S. Protcner, S. V. Vlasenko, R. Stadalyus i dr. // Zheleznye dorogi mira. - 2009. - № 9. - S. 56-61.
10. Milehin D. A. Perspektivy primeneniya platformy SIMIS v sistemah upravleniya dvizheniem poezdov na zheleznyh dorogah Rossii / D. A. Milehin, Yu. S. Smagin, O. Yu. Shatkovskiy // Zheleznye dorogi mira. - 2012. - № 7. - S. 59-62.
11. Riesbeck T. Peredacha dannyh po tehnologii DSL v MPC ESTW L90 / T. Riesbeck, K. Eisermann // Zheleznye dorogi mira. - 2011. - № 11. - S. 58-60. (Perevod stat'i iz zhurnala Signal und Draht, 2011, № 6, pp. 6-9)
12. Roiser K. Zhiznennyy cikl sistem MPC / K. Roiser, Ch. Scharm // Zheleznye dorogi mira. - 2007. - № 5. - S. 65-69. (Perevod stat'i iz zhurnala Signal und Draht, 2006, № 6, pp. 15-18.)
13. Nikitin A. B. Obosnovanie ekonomicheskoy bezopasnosti zheleznodorozhnogo transporta na baze intellektual'nyh komp'yuternyh sistem operativnogo upravleniya dvizheniem poezdov / A. B. Nikitin // Innovacii i investicii. - 2016. - № 7. - S. 152-155.
14. Bezrodnyy B. F. Kiberbezopasnost' mikroprocessornyh sistem zheleznodorozhnoy avtomatiki / B. F. Bezrodnyy, I. A. Nasedkin, R. S. Bakurkin i dr. // Avtomatika, svyaz', informatika. - 2020. - № 12. - S. 4-8. - DOI:https://doi.org/10.34649/AT.2020.12.12.002.
15. Nikitin A. B. Metod rascheta stoimosti zhiznennogo cikla sistem zheleznodorozhnoy avtomatiki i telemehaniki / A. B. Nikitin, I. V. Kushpil' // Izvestiya Peterburgskogo universiteta putey soobscheniya. - 2018. - T. 15. - № 1. - S. 117-129.
16. Fedorov V. G. Sistema radiochastotnoy identifikacii SAID «Pal'ma» na zheleznodorozhnom transporte / V. G. Fedorov // Avtomatizaciya v promyshlennosti. - 2006. - № 3. - S. 18-21.