Zhurnal Radioelektroniki - Journal of Radio Electronics. eISSN 1684-1719. 2021. No. 6
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Full text in Russian (pdf)

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DOI https://doi.org/10.30898/1684-1719.2021.6.9

UDC  621.391.82; 004.3; 681.139.3

 

NOISE IMMUNITY OF MONITORING AND CONTROL SYSTEMS FOR ACCESS TO BUILDINGS WHEN EXPOSED TO ELECTROMAGNETIC INTERFERENCE THROUGH THE POWER SUPPLY NETWORK

 

R. M. Safina 1, M. S. Shkinderov 2, R. R. Mubarakov 2

1 Volga Region State University of Physical Culture, Sport and Tourism, 33, Universiade Village, Kazan, 420010, Russia

2 Kazan National Research Technical University named after A.N. Tupolev-KAI, 10 Karl Marx Str., Kazan, 420111, Russia

 

The paper was received on June 8, 2021

 

Abstract. Access monitoring and control system are a set of software and hardware for restricting and registering the entrance to a given territory through special passages. In addition, when used in modern sports facilities, these systems must have a high capacity. This is necessary for the safe movement and timely evacuation of a large number of visitors. Therefore, the reliable operation of access monitoring and control systems is the most important technical challenge. Electromagnetic interference can disrupt the functions of the control system. One of the reasons for system malfunctions can be electromagnetic interference on the power supply network. The article analyzes the sources of electromagnetic interference in the power supply network. Experimental studies of the functioning of the control system under the influence of nanosecond noise on the power supply network have been carried out. A simulation model is proposed and the results of modeling electromagnetic interference in the control system when exposed to electromagnetic pulses through the power supply network are presented. The simulation results are in good agreement with the experimental data.

Key words: noise immunity, access monitoring and control system, building, sports facility, electromagnetic interference, power supply network, experiment, modeling.

References

1. Access Control Technologies Handbook, Washington, U.S. Department of Homeland Security. 2015. 56 p.

2. Norman T. Electronic Access Control. Imprint-Butterworth: Heinemann Published, 2017. 576 p.

3. Gut R.V., Kirpichnikov A.P., Lyasheva S.A., Shleymovich M.P. Methods of rank filtration in video surveillance systems. Vestnik tekhnologicheskogo universiteta [Bulletin of the Technological University]. 2017. Vol.20, No.17. P.71–73. (In Russian)

4. Kirpichnikov A.P., Lyasheva S.A., Shleymovich M.P. Object detection and tracking in onboard image processing systems. Vestnik tekhnologicheskogo universiteta [Bulletin of the Technological University]. 2014. No.13. P.331–334. (In Russian)

5. Shleymovich M.P., Lyasheva S.A., Kirpichnikov A.P. Calculation of signs of images based on wavelet transforms. Vestnik tekhnologicheskogo universiteta [Bulletin of the Technological University]. 2015. No.18. P.223–228. (In Russian)

6. Obukhov A.V., Lyasheva S.A., Shleymovich M.P. Methods for automatic recognition of license plates. Vestnik Chuvashskogo universiteta [Bulletin of the Chuvash University]. 2016. No.3. P.201-208. (In Russian)

7. Paul C.R. Introduction to Electromagnetic Compatibility. Hoboken, Wiley-Interscience, 2006. 1016 p.

8. Akbashev B.B, Balyuk N.V, Kechiev L.N. Zashchita obektov telekommunikacij ot elektromagnitnyh vozdejstvij. [Protection of telecommunications facilities from electromagnetic influences]. Moscow, Grifon Publ.. 2014. 471 p. (In Russian)

9. Balyuk N.V., Kechiev L.N., Stepanov P.V. Moshchnyj elektromagnitnyj impuls: vozdejstvie na elektronnye sredstva i metody zashchity. [Powerful electromagnetic pulse: impact on electronic equipment and protection methods]. Moscow, ITD Group Publ. 2007. 478 p. (In Russian)

10. Gizatullin Z.M., Fazulyanov F.M., Shuvalov L.N., Gizatullin R.M. The integrity of information in a USB flash drive when exposed to a pulsed magnetic field. Zhurnal radioelektroniki  [Journal of Radio Electronics]. 2015. No.8. http://jre.cplire.ru/jre/aug15/8/text.pdf. (In Russian)

11. Kirillov V.Yu., Tomilin M.M. Calculation of electric and magnetic fields strength from electrostatic discharges. Tekhnologii elektromagnitnoj sovmestimosti – [Electromagnetic compatibility technologies]. 2017. No.2. P.15–24. (In Russian)

12. Gizatullin ZM, Gizatullin R.M. Experimental Investigations of the Noise Immunity of a Personal Computer with a Pulsed Discharge of Static Electricity. Vestnik Kazanskogo gosudarstvennogo tekhnicheskogo universiteta im. A.N. Tupoleva [Bulletin of the Kazan State Technical University named after A.N. Tupolev]. 2011. No.3. P.7883. (In Russian)

13. Kechiev L.N., Pozhidaev E.D. Zashchita elektronnyh sredstv ot vozdeystviya staticheskogo elektrichestva [Protection of electronic means against static electricity]. Moscow, Publishing house «Technologies». 2005. 352 p. (In Russian)

14. Shkinderov M.S. Investigation of the functioning of the access control and management system under the influence of nanosecond electromagnetic interference through the power supply network. Tekhnologii elektromagnitnoj sovmestimosti [Electromagnetic compatibility technologies]. 2019. No.3. P.60–70. (In Russian)

15. Shkinderov M.S., Gizatullin Z.M. Study of an Access Monitoring and Control System Working in the Presence of Electrostatic Discharges. Journal of Communications Technology and Electronics. 2018. No.11. P.1319–1325.

16. Safina R.M., Shkinderov M.S. Improving the noise immunity of the access control and management system when exposed to electrostatic discharge. Zhurnal radioelektroniki  [Journal of Radio electronics]. 2020. No.8. https://doi.org/10.30898/1684-1719.2020.8.10. (In Russian)

17. Shkinderov M.S., Nuriev M.G., Gizatullin Z.M. End-to-end forecasting of noise immunity of monitoring and control systems under external electromagnetic influences. Vestnik Kazanskogo gosudarstvennogo energeticheskogo universiteta [Bulletin of Kazan State Power Engineering University]. 2016. No.2. P.26–37. (In Russian)

18. Gizatullin Z.M., Nabiev I.I., Shkinderov M.S. Interference immunity of local computer networks under external electromagnetic influences. Telekommunikacii [Telecommunications].  2017. No.2. P.41–47. (In Russian)

19. Mansson D. Intentional electromagnetic interference (IEMI). Susceptibility investigations and classification of civilian systems and equipment.  Uppsala, Acta Universitatis Upsaliensis. 2008. 127 p.

20. Gizatullin Z.M. Electromagnetic compatibility of electronic means of electric power industry objects under external electromagnetic influences via the power network. Izvestiya vysshih uchebnyh zavedenij. Problemy ehnergetiki [News of higher educational institutions. Problems of energy]. 2007. No.9-10. P.3745. (In Russian)

21. Gizatullin Z.M., Gizatullin R.M., Ziatdinov I.N. Analysis of the functioning of computer equipment under the influence of electromagnetic interference through the power supply network. Izvestiya vysshih uchebnyh zavedenij. Problemy ehnergetiki [News of higher educational institutions. Problems of energy].2015. No. 7-8. P.98–105. (In Russian)

22. Gizatullin Z.M., Gizatullin R.M. Analysis of the quality of electricity in a single-phase power supply network of 220 Volts 50 Hertz. Izvestiya vysshih uchebnyh zavedenij. Problemy ehnergetiki [News of higher educational institutions. Problems of energy]. 2012. No.7-8. P.63–71. (In Russian)

23. Gizatullin R.M., Gizatullin Z.M., Arkhipov A.O. Modeling of side conductive information transmission from computer technology through a power supply network. Informaciya i bezopasnost’ [Information and security]. 2018. No.3. P.390–393. (In Russian)

24. Sukhorukov S.A. Comments to GOST R 52863-2007. Tekhnologii elektromagnitnoj sovmestimosti [Electromagnetic compatibility technologies]. 2011. No.3. P.1–20. (In Russian)

25. GOST R 20009-2000. Sovmestimost tekhnicheskih sredstv elektromagnitnaya. Tekhnicheskie sredstva ohrannoj signalizacii. Trebovaniya i metody ispytanij. [Electromagnetic compatibility of technical means. Security alarm technical means. Requirements and test methods]. Moscow, Izdatelstvo standartov Publ. 2001. 12 p. (In Russian)

26. Shkinderov M.S., Gizatullin Z.M. Information security of computer technology under the influence of intentional electromagnetic interference. Informaciya i bezopasnost’ [Information and security]. 2017. No.3. P.452455. (In Russian)

27. Gizatullin Z.M. Investigation of the effectiveness of shielding of a personal computer case under deliberate electromagnetic influences. Vestnik Kazanskogo gosudarstvennogo tekhnicheskogo universiteta im. A.N. Tupoleva [Bulletin of the Kazan State Technical University named after A.N. Tupolev]. 2008. No.1. P.28–31. (In Russian)

28. Zhechev E.S., Chernikova E.B., Belousov A.O., Gazizov T.R. Experimental studies of the mirror-symmetric modal filter in the time and frequency domains. Sistemy upravleniya, svyazi i bezopasnosti [Control systems, communications and security]. 2019. No.2. P.162–179. (In Russian)

29. Gazizov T.R., Zabolotsky A.M., Melkozerov A.O., Kuksenko S.P. , et al. Ways of solving topical problems of designing radio-electronic means taking into account electromagnetic compatibility. Tekhnika radiosvyazi  [Radio communication technology]. 2014. No.2 (22). P.11–22. (In Russian)

30. Gizatullin Z.M. Reducing electromagnetic interference in the interconnections of multilayer printed circuit boards. Vestnik Kazanskogo gosudarstvennogo tekhnicheskogo universiteta im. A.N. Tupoleva [Bulletin of the Kazan State Technical University named after A.N. Tupolev]. 2012. No.2. P.199–205. (In Russian)

31. Gizatullin Z.M., Gizatullin R.M., Nuriev M.G., Nazmetdinov F.R. Reducing electromagnetic interference and information protection in computing with the help of shielding glasses. Vestnik Kazanskogo gosudarstvennogo energeticheskogo universiteta [Bulletin of Kazan State Power Engineering University]. 2017. No.3. P.46–57. (In Russian)

32. Zhukov P.A., Kirillov V.Yu., Marchenko M.V. The influence of the methods of connecting the cable shield with the electrical connector of the shielding. Vestnik Moskovskogo energeticheskogo instituta [Bulletin of Moscow Power Engineering Institute]. 2019. No.2. P.50–56. (In Russian)

33. Zhuravlev S.Yu., Kirillov V.Yu., Zhukov P.A. Research of radio-absorbing materials for spacecraft. Tekhnologii elektromagnitnoj sovmestimosti [Electromagnetic compatibility technologies]. 2018. No.4. P.32–39. (In Russian)

 

For  citation:

Safina R.M., Shkinderov M.S., Mubarakov R.R. Noise immunity of monitoring and control systems for access to buildings when exposed to electromagnetic interference through the power supply network. Zhurnal Radioelektroniki [Journal of Radio Electronics]. 2021. No.6. https://doi.org/10.30898/1684-1719.2021.6.9  (In Russian)