Moscow, Moscow, Russian Federation
Saratov, Saratov, Russian Federation
Saratov, Saratov, Russian Federation
Moscow, Moscow, Russian Federation
UDK 623.746.4-519 беспилотные
This study contains new data based on the analysis of the integrated use of the small unmanned aerial ehicles capabilities and on-board equipment in combination with specialized software. The methodology developed can be recommend for forensic examination of transport infrastructure facilities construction quality. We obtained experimentally that measuring the geometric parameters of streets and roads using such devices significantly increases the objectivity of research and guarantees the necessary productivity of work during the construction of highways.
Unmanned aerial vehicles, asphalt concrete pavement, digital terrain model, defects, certifi cation and inventory of highways
1. Kostyuk, A.S. (2010) Calculation of parameters and evaluation of the quality of aerial photography from UAVs, Geo-Sibir, 4(1), pp. 83-87 (in Russian).
2. Ilyinov, E.V. & Ageev, A.M. (2014) Analysis and forecast of the development of the production of complexes with UAVs of leading foreign countries, Vestnik Akademii voyennykh nauk, (1), pp. 153-156 (in Russian).
3. Bauer, P. (2016) .Aircraft of unconventional schemes. M.: Mir (in Russian).
4. Karpovich M.A., Gerstein, L.M., Panevin, N.V. & Karpovich, A.M. (2013) The use of UAVs during topographic and geodetic surveys, Transportnaya strategiya – XXI vek, (22), pp. 66-68 (in Russian).
5. The use of unmanned aerial vehicles in geographical research (2018) Sbornik trudov Vserossiyskoy nauchno-prakticheskoy konferentsii, Irkutsk. 22–23 maya 2018 g. Irkutsk: Izdatelstvo Instituta geografii im. V.B. Sochavy SO RAN (in Russian).
6. Kumaritova, D.L. & Kirichek, R.V. (2016) Review and comparative analysis of LPWAN network technologies, Informatsionnyye tekhnologii i telekommunikatsii, 4(4), pp. 33-48 (in Russian).
7. Belenkov, A.I. (2016) Experience and prospects of the use of unmanned aerial vehicles in precision agriculture, Agrosnabzhencheskiy zhurnal «Nivy Rossii», 5(138), pp. 62-65 (in Russian).
8. Pisarev, A.V. (2016) The possibilities of using UAVs to build a high-precision digital terrain model of small rivers, Problemy teorii i praktiki sovremennoy nauki. Materialy V Mezhdunarodnoy nauchno-prakticheskoy konferentsii. Taganrog. 18 yanvarya 2016 goda. Taganrog: Izdatelstvo «Pero», pp. 95-98 (in Russian).
9. Manukhina, V.P., Manukhina, L.A., Dekhtyar, E.V. & Sadakova, V.V. (2017) Unmanned aerial vehicles for the purpose of checking the condition of bridges, Fundamentalnaya nauka i tekhnologii – perspektivnyye razrabotki. Materialy XI mezhdunarodnoy nauchno-prakticheskoy konferentsii "Fundamental Science and Technology - Promising Developments North Charleston, March 27-28, 2017. Izd-vo «CreateSpace», pp. 146-148 (in Russian).
10. Filippov, D.V., Velikzhanina, K.Yu. & Grydunov, D.A. (2012) The state of highways studies UAVs, Dorogi. Innovatsii v stroitelstve, (20), pp. 74-78 (in Russian).
11. Nakonechny, V.N., Sereda, P.O., Lebedeva, I.V. & Tsal, A.Yu. (2017) On the use of unmanned aerial vehicles for monitoring and diagnostics of highways, Sbornik nauchnykh trudov mezhdunarodnoy nauchno-prakticheskaya konferentsii "Transport: nauka. obrazovaniye. proizvodstvo. Tekhnicheskiye nauki". T. 2. Rostov-na-Donu: RGUPS, pp. 305-308 (in Russian).
12. Burgonutdinov, A.M., Garifzyanov, R.D., Okuneva, A.G. & Stetsyuk, K.S. (2015) Analysis of remote and visual methods for assessing the condition of the road surface, Vestnik Permskogo natsionalnogo issledovatelskogo politekhnicheskogo universiteta. Prikladnaya ekologiya. Urbanistika, 2(18), pp. 74-84 (in Russian).
13. ODM 218.9.017-2019 "Methodological recommendations for the production of aerial photography works using unmanned aerial vehicles during surveys for the construction and reconstruction of highways" (2019). M.: Rosavtodor (in Russian).