Monitoring of Engineering Structures on the Crimean Bridge

The features of equipping the transportation passage across the Kerch Strait (Crimean Bridge) with a modern system for monitoring engineering structures and constructions are described. The purpose of this development was to create a powerful information system for obtaining objective data on the technical condition of this strategically important object for the country. The description of the main features of the implemented systems is provided. The nuances of operating monitoring systems on road and railway crossings are highlighted. Ways to improve the principles of operating the installed systems, as well as the development of the monitoring technology itself on this unique technical structure, are noted.

1. Andersen J. E., Vesterinen A.Structural Health Monitoring Systems. Denmark, COWI A/S, 2006, 125 p.

2. Belyi A., Shestovitskii D., Myachin V., Sedykh D. Development of Automation Systems at Transport Objects of Megacity // Proc. 17th IEEE East-West Design & Test Symp. (EWDTS’2019), Batumi, Georgia, Sept. 13–16, 2019. P. 201–206. DOI: 10.1109/EWDTS.2019.8884382.

3. Белый А. А., Белов А.А., Ященко А.И., Антонюк А.А. Интегральный мониторинг моста Александра Невского // Путевой навигатор. 2020. № 45 (71). С. 38–45.

4. Аганов И. А., ОсадчийГ.В., ЕфановД.В. и др. Особенности эксплуатации системы мониторинга инженерных конструкций мостового сооружения через реку Пур в Ямало-Ненецком автономном округе // Мир дорог. 2021. № 142. С. 132–135.

5. Tammer M., Kaminski M. Fatigue Oriented Risk Based Inspection and Structural Health Monitoring of FPSOs // Proc. 23rd Int. Offshore and Polar Eng. Anchorage, Alaska, USA, June 30 — July 5, 2013. P. 438–449.

6. Ефанов Д.В. Функциональный контроль и мониторинг устройств железнодорожной автоматики и телемеханики. СПб.: ФГБОУ ВО ПГУПС, 2016. 171 с.

7. Ефанов Д. В., Осадчий Г.В. Микропроцессорная система диспетчерского контроля устройств железнодорожной автоматики и телемеханики: 3-е. изд., стереотип. СПб.: Лань, 2023. 180 с.

8. Ефанов Д. В., Осадчий Г.В., АгановИ.А. Увязка систем управления с техническими средствами диагностирования и мониторинга объектов инфраструктуры // Автоматика, связь, информатика. 2021. № 6. С. 25–29. DOI: 10.34649/AT.2021.6.6.004.

9. Efanov D., OsadchyG., Aganov I. Fundamentals of Implementation of Safety Movement of Trains under Integration of Control Systems with Hardware for Railway Infrastructure Facilities Monitoring // Proc. 11th IEEE Int. Conf. on Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications (IDAACS’2021). Vol. 1, Cracow, Poland, Sept. 22–25, 2021. Р. 391–396. DOI: 10.1109/IDAACS53288.2021.9660985.

10. Ефанов Д.В. Перспективы управления движением на железнодорожных магистралях при использовании данных от систем мониторинга инженерных конструкций и сооружений // Мостовые сооружения. XXI век. 2021. № 4 (51). С. 17.

11. Ефанов Д. В., Хорошев В.В., Осадчий Г.В. Концептуальные основы синтеза безопасных систем управления движением поездов // Мир транспорта. 2022. Т. 20, № 3 (100). С. 50–57. DOI: 10.30932/1992-3252-2022-20-3-6.

12. Efanov D. V., Khóroshev V. V., OsadchyG.V.Principles of Safety Signalling and Traffic Control Systems Synthesis on Railways // Proc. 9th Int. Conf. on Industrial Engineering, Applications and Manufacturing (ICIE), Sochi, Russia, May 15–19, 2022. P. 634–638. DOI: 10.1109/ICIEAM57311.2023.10139292.

13. Smarsly K., Petryna Y. A Decentralized Approach towards Autonomous Fault Detection in Wireless Structural Health Monitoring Systems // 7th European Workshop on Structural Health Monitoring (EWSHM), Le Cité, Nantes, France, 2014 P. 1280–1286.

14. Sun D. L., Shang Z., Xia Y. et al. Review of Bridge Structural Health Monitoring Aided by Big Data and Artificial Intelligence: From Condition Assessment to Damage Detection // J.Structural Eng. 2020. No. 146 (5): 04020073. DOI: 10.1061/(ASCE)ST.1943-541X.0002535.

15. Sokolov S. A., PlotnikovD.G., GrachevA.A., LebedevV.A. Evaluation of Loads Applied on Engineering Structures Based on Structural Health Monitoring // Int. Rev. Mechanical Eng. (IREME). 2020. Vol. 14, No. 2. P. 146–150. DOI: 10.15866/ireme.v14i2.18269.

16. Efanov D. V., Myachin V., OsadchiyG., Zueva M. Filtration of Diagnostic Data for Retrospective Analysis in Health Monitoring Systems of Engineering Structures // Proc. 18th IEEE East-West Design & Test Symp. (EWDTS’2020), Varna, Bulgaria, Sept. 4–7, 2020. P. 189–196. DOI: 10.1109/EWDTS50664.2020.9224797.

17. Грачев А. А., Никитин Г.И., ПлотниковД.Г. и др. Автоматизация расчета локальных напряжений в элементах коробчатого сечения пролетных строений с ездовыми балками по данным непрерывного мониторинга // Автоматика на транспорте. 2021. Т. 7, № 2. С. 216–230. DOI: 10.20295/2412-9186-2021-7-2-216-230.

18. Cury A., Ribeiro D., Ubertini F., Todd M. Structural Health Monitoring Based on Data Science Techniques // Springer Int. Publishing. 2022. Vol. 21, XVIII+474 p. DOI: 10.1007/978-3-030-81716-9.

19. Kwon T. H., Park S.H., Park S.I., Lee S.-H. Building Information Modeling-Based Bridge Health Monitoring for Anomaly Detection under Complex Loading Conditions Using Artificial Neural Networks // J.Civil Structural Health Monitoring. 2021. No. 11 (3). DOI: 10.1007/s13349-021-00508-6.

20. Ozer E., Feng M.Q. Structural Health Monitoring // Start-Up Creation (Second Edition), The Smart Eco-Efficient Built Environment Woodhead Publishing Series in Civil and Structural Engineering, 2020. P. 345–367. URL: https://doi.org/10.1016/B978-0-12-819946-6.00013-8.