6533b82afe1ef96bd128c311

RESEARCH PRODUCT

Traffic data acquirement by unmanned aerial vehicle

Giuseppe SalvoAlessandro VitaleLuigi CarusoGiuseppe GuidoAlessandro Scordo

subject

0209 industrial biotechnologyAtmospheric ScienceTraffic dataGeographic information systemRelation (database)UAVGPS02 engineering and technologyvehicle trajectorieVehicle Information and Communication SystemTransport engineeringlcsh:Oceanography020901 industrial engineering & automationComputers in Earth Science0502 economics and businesslcsh:GC1-1581Computers in Earth SciencesSimulationGeneral Environmental ScienceRoad user050210 logistics & transportation2300business.industryApplied Mathematicslcsh:QE1-996.505 social sciencesTraffic flowVideo imagelcsh:GeologyGeographySettore ICAR/05 - TrasportiGlobal Positioning Systembusinessvehicle trajectories

description

This paper presents a methodology aimed to acquire traffic flow data through the employment of unmanned aerial vehicles (UAVs). The study is focused on the determination of driving behavior parameters of road users and on the reconstruction of traffic flow Origin/Destination matrix. The methodology integrates UAV flights with video image processing technique, and the capability of geographic information systems, to represent spatiotemporal phenomena. In particular, analyzing different intersections, the attention of the authors is focused on users’ gap acceptance in a naturalistic drivers’ behavior condition (drivers are not influenced by the presence of instruments and operators on the roadway) and on the reconstruction of vehicle paths. Drivers’ level of aggressiveness is determined by understanding how drivers decide that a gap is crossable and, consequently, how their behavior is critical in relation to a moving stream of traffic with serious road safety implications. The results of these experiments highlight the usefulness of the UAVs technology, that combined with video processing technique allows the capture of real traffic conditions with a good level of accuracy.

yearjournalcountryeditionlanguage
2017-01-01European Journal of Remote Sensing
https://doi.org/10.1080/22797254.2017.1328978