N. L. Alymov1, M. E. Elesin2, V. A. Kochetkov3, N. V. Shishkin4

1–4 Academy of the Federal Security Service of Russia (Orel, Russia)
 

In the paper an algorithm for diagnosing microwave antenna arrays used in wireless communication lines and broadband sensor networks has been presented. This algorithm is based on the calculated patterns of radiation patterns in the far zone and the measured values of the voltage standing wave coefficients of their antenna-feeder paths. The algorithm can be used to solve a certain class of problems of identifying, monitoring and predicting the technical condition of linear and rectangular antenna arrays with a tree structure of the excitation system, as well as an arbitrary topology and geometry of the radiating elements of the array.

Alymov N.L., Elesin M.E., Kochetkov V.A., Shishkin N.V. Algorithm for diagnosing antenna arrays of microwave radioelectronic systems based on radiation pattern images and voltage standing wave ratio values. Dynamics of complex systems. 2023. V. 17. № 2.
С. 5−16. DOI: 10.18127/j19997493-202302-01 (in Russian)

1. Choradiya R.M., Sahal M., Yadav D., Tiwari M. Dual band compact microstrip antenna with defected ground for modern wireless applications. 2021 International Conference on Recent Trends on Electronics, Information, Communication & Technology (RTEICT). Bangalore, India. 2021. P. 601–605. DOI: 10.1109/RTEICT52294.2021.9573751.
2. Olufadi Y.B., Maina I., Adegboye O.A., Fasiku A.I. Comparative analysis of the effect of different substrates materials on microstrip patch antenna operating at 3.6 GHz. 2021 IEEE International Conference on the Properties and Applications of Dielectric Materials (ICPADM). Johor Bahru, Malaysia. 2021. P. 81–84. DOI: 10.1109/ICPADM49635.2021.9493967.
3. Al-Mihrab M.A., Salim A.J., Ali J.K. A compact multiband printed monopole antenna with hybrid polarization radiation for GPS, LTE, and satellite applications. IEEE Access. 2020. V. 8. P. 110371–110380. DOI: 10.1109/ACCESS.2020.3000436.
4. Feng T., Xie L., Yao J., Xu J. UAV-enabled data collection for wireless sensor networks with distributed beamforming. IEEE Transactions on Wireless Communications. 2022. V. 21. № 2. P. 1347–1361. DOI: 10.1109/TWC.2021.3103739.
5. Olsen N.R., McKee S.M., Haddadin O.S., Lyon S., Campbell J., Leang K.K. Information-based mobile sensor network localization and tracking of an uncooperative target. IEEE Military Communications Conference (MILCOM). Rockville, MD, USA. 2022. P. 490–495. DOI: 10.1109/MILCOM55135.2022.10017826.
6. Yang W., et al. Robust wireless rechargeable sensor networks. IEEE/ACM Transactions on Networking. 2022. DOI: 10.1109/TNET.2022.3199389.
7. Dobychina E.M., Shmachilin P.A. Postroenie tsifrovykh antennykh reshetok dlya sovremennykh radioelektronnykh system. Antenny. 2011. № 3. S. 61–70. (in Russian)
8. Kochetkov V.A., Alymov N.L. Ispol'zovanie SAPR Genesys pri modelirovanii protsessov diagnostirovaniya elementov antenno-fidernogo trakta i antennykh reshetok RES SVCh-diapazona. Informatsionnye sistemy i tekhnologii. 2018. № 3. S. 5–14. (in Russian)
9. Kochetkov V.A., Elesin M.E., Alymov N.L., Cherkasov A.E. Rezul'taty elektrodinamicheskogo modelirovaniya vliyaniya izmeneniya fazy vozbuzhdeniya izluchayushchikh elementov na diagrammu napravlennosti planarnykh antennykh reshetok SVCh–diapazona. Informatsionnye sistemy i tekhnologii. 2018. № 4. S. 5–13. (in Russian)
10. Kochetkov V.A., Alymov N.L., Tikhonov A.V., Remizov Yu.A. Rezul'taty issledovaniya vliyaniya otkazov izluchatelej antennykh reshetok RES SVCh-diapazona na izmenenie parametrov antenno-fidernogo trakta s ispol'zovaniem SAPR Genesys. Informatsionnye sistemy i tekhnologii. 2018. № 6. S. 5–12. (in Russian)
11. Kochetkov V.A., Alymov N.L., Elesin M.E., Gorshkov A.A. Sposob opisaniya protsessa formalizatsii urovnej diagnosticheskikh modelej i postanovka zadachi ikh vydeleniya iz konfiguratsionnykh naborov topologii antennoj reshetki RES SVCh-diapazona s ispol'zovaniem nejrosetevykh tekhnologij. Izvestiya Tul'skogo Gosudarstvennogo universiteta. Tekhnicheskie nauki. 2019. № 3. S. 9–19. (in Russian)
12. Kochetkov V.A., Alymov N.L., Elesin M.E., Gorshkov A.A. Algoritm diagnostirovaniya antennoj reshetki RES SVCh-diapazona na osnove izmerennykh znachenij koeffitsienta stoyachej volny i volnovogo soprotivleniya. Izvestiya Tul'skogo gosudarstvennogo universiteta. Tekhnicheskie nauki. 2022. № 9. S. 9–14. (in Russian)
13. Hossain S., Rana M.S., Rahman M.M. Design and analysis of a Ka band microstrip slotted patch antenna with 5G communication technology using CST. 2022 IEEE 3rd Global Conference for Advancement in Technology (GCAT). Bangalore, India. 2022. P. 1–4. DOI: 10.1109/GCAT55367.2022.9972008.
14. Winton D.B., Huang Z.C. MBSE and FMEA integration using Genesys. 2021 Annual Reliability and Maintainability Symposium (RAMS). Orlando, FL, USA. 2021. P. 1–7. DOI: 10.1109/RAMS48097.2021.9605748.
15. Yurtsev O.A. i dr. Modelirovanie antenn v rezhimakh izlucheniya i rasseyaniya v paketakh CST Studio, HFSS, FEKO i uzkospetsializirovannykh programmakh: Metod. posobie. Minsk: BGUIR. 2012. (in Russian)
16. Moskalev D.V. Vliyanie vykhoda iz stroya izluchayushchikh elementov na kharakteristiki mnogogrannoj antennoj reshetki. Doklady BGUIR. 2011. № 7 (61). S. 68–75. (in Russian)
17. Spravochnik po radiolokatsii. Pod red. M.M. Skolnika. M.: Sov. radio. 1977. (in Russian)
18. Levin B.R. Teoreticheskie osnovy statisticheskoj radiotekhniki. M.: Sov. radio. 1966. (in Russian)
19. Kochetkov V.A., Alymov N.L., Cherkasov A.E., Elesin M.E. Programma, realizuyushchaya algoritm tekhnicheskogo diagnostirovaniya antennykh reshetok sredstv ShBD. Svidetel'stvo o gosudarstvennoj registratsii № 2020664033. 2021.
20. Kuznetsov G.Yu., Temchenko V.S., Miloserdov M.S., Gigolo A.I. Diagnostika aktivnoj fazirovannoj antennoj reshetki pri teplovykh ispytaniyakh po malomu chislu izmerenij. Antenny. 2018. № 1. S. 23–31. (in Russian)