2018
DOI: 10.1177/1729881417750787
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Cooperation between an unmanned aerial vehicle and an unmanned ground vehicle in highly accurate localization of gamma radiation hotspots

Abstract: This article discusses the highly autonomous robotic search and localization of radiation sources in outdoor environments. The cooperation between a human operator, an unmanned aerial vehicle, and an unmanned ground vehicle is used to render the given mission highly effective, in accordance with the idea that the search for potential radiation sources should be fast, precise, and reliable. Each of the components assumes its own role in the mission; the unmanned aerial vehicle (in our case, a multirotor) is res… Show more

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Cited by 53 publications
(27 citation statements)
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“…Such a situation usually occurs in areas inaccessible or dangerous to humans, including zones of natural disasters, radiation hotspot localisation, or environmental mapping. The system was successfully employed in a gamma radiation mapping experiment which examined the potential of cooperation between UAS and UGV during the localisation of hotspots; the outcomes are presented in Lazna et al (2018) and Lazna et al (2017). …”
Section: Resultsmentioning
confidence: 99%
“…Such a situation usually occurs in areas inaccessible or dangerous to humans, including zones of natural disasters, radiation hotspot localisation, or environmental mapping. The system was successfully employed in a gamma radiation mapping experiment which examined the potential of cooperation between UAS and UGV during the localisation of hotspots; the outcomes are presented in Lazna et al (2018) and Lazna et al (2017). …”
Section: Resultsmentioning
confidence: 99%
“…A cooperative approach between a UGV and UAV was also proposed by Lazna et al in order to combine the advantages of both platforms [ 136 ]. In this case, the UAV uses (e.g., multi-rotor) photogrammetric techniques to generate a 3D map of the region of interest (ROI) (terrain reconstruction), to assist the UGV (which carry a radiation detector) in the path planning to find a hotspot.…”
Section: Mobile Radiation Detection Systemsmentioning
confidence: 99%
“…Hutchinson et al, sequentially determined the detector’s placement positions using the concept of maximum entropy sampling [ 18 ]. Lazna et al, proposed a circular path planning strategy to exploit the directional characteristics of detectors [ 19 ]. Ristic et al, designed the survey path incrementally by choosing detector positions and detection times maximizing the information gain in the Renyi divergence sense [ 20 ].…”
Section: Introductionmentioning
confidence: 99%