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All issues Volume 402 (2023) E3S Web of Conf., 402 (2023) 12017 References
Open Access
Issue
E3S Web of Conf.
Volume 402, 2023
International Scientific Siberian Transport Forum - TransSiberia 2023
Article Number 12017
Number of page(s) 11
Section Geotechnical Engineering, Road and Bridge Construction
DOI https://doi.org/10.1051/e3sconf/202340212017
Published online 19 July 2023
  1. Matua V.P. Chirva D.V. Mironchuk S.A., Solodov V.V. Measuring probes for monitoring of residual deformations in structural layers of road pavements and subgrade soil in the collection “Roads and Pavements” FGUP “ROSDORNII”. - М., 2013. - Issue. 30/2. pp. 131-141. [Google Scholar]
  2. Chirva D.V. Solodov V.V. “A non-contact method for measuring the dynamic deflection of road structure elements” Engineering Herald of the Don, No. 3(2015) ivdon.ru/ru/magazine/archive/n3y2015/3079. [Google Scholar]
  3. Matua V.P., Chirva D.V., Solodov V.V., Mironchuk S.A., Sizonets S.V., Isaev E.N., Grushevenko A.P. Remote monitoring of road structures condition as a way to improve durability of automobile roads / Automobile roads - 2019. - № 3. pp. 100-106. [Google Scholar]
  4. Matua V.P., Chirva D.V., Solodov V.V., Mironchuk S.A., Sizonets S.V., Isaev E.N., Grushevenko A.P. Timely and competent recording of data from observation stations - an effective way to improve service life and durability / Highways - 2019. -№ 6. pp. 105-112. [Google Scholar]
  5. Efremov L.G., Matua V.P., Chirva D.V., Solodov V.V., Mironchuk S.A., Sizonets S.V., Isaev E.N., Gru-shevenko A.P. Observation stations of automated remote monitoring / Roads of Russia 21 century - 2019. -№ 1(109), pp. 95-102. [Google Scholar]
  6. D. V. Chirva, and S. A. Mironchuk 2019 Automated remote monitoring system of highway conditions (AIP Conference Proceedings 2188, 060009 (2019); https://pubs.aip.org/aip/acp/article/2188/1/060009/824773/Automated-remote-monitoring-system-of-highway. [Google Scholar]
  7. Dmitry Chirva, Vitaly Solodov, Sergey Mironchuk, and Evgeniy Isaev 2020 Remote Monitoring System for Road Constructions (6th International Conference on Accelerated Pavement Testing. Nant, France, 27-29 September 2021, Pages 623-631). [Google Scholar]
  8. The utility model patent number 121585, “The device for monitoring the accumulation of residual deformations in the road construction elements” Application number 2012114019, IPC G01 N 03/02 Priority of utility model April 10, 2012, registered 27.10.2012. [Google Scholar]
  9. The patent for useful model ¹ 138080, “Measuring device for determination of residual deformations of multilayer road constructions” Application ¹ 2013142385/28, IPC G01 N 03/02 Priority of useful model 17 September 2014, registered 5.02.2014 [Google Scholar]
  10. Useful model patent No. 161920, “Device for determination of residual deformations of multi-layer road constructions” Application No. 2015138030, IPC G01 N 27/72, registered on 21.04.16 [Google Scholar]
  11. Useful model patent No. 169947 “Measuring probe for monitoring of residual deformation accumulation in road structure elements”, Application No. 2016136328, IPC G01 N 03/02 Date of entry 09.09.2016. [Google Scholar]
  12. Invention patent No. 2710901 “Method of automatic remote monitoring of residual deformation accumulation and thermal-moisture fluctuations of road structure elements under real deformation conditions”, Application No. 2019119871, IPC G01M 7/00 Date of receipt 14.01.2020. [Google Scholar]

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