Using RPAS for the detection of archaeological objects using multispectral and thermal imaging

Šedina, Jaroslav; Housarova, Eliska; Raeva, P.

doi:10.1080/22797254.2018.1562848

Cited by 23 publications

(21 citation statements)

References 14 publications

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“…The use of remote sensing to survey and research archaeological sites is well established in the literature [1][2][3][4][5][6][7][8], and although conventional aerial photography and LiDAR are commonplace the use of multisensor data acquisition is less well represented. In this study the authors have selected two separate archaeological sites which differ considerably in character, period, and physical aspect and which both have known multiperiod features.…”

Section: Overviewmentioning

confidence: 99%

Mapping Heterogeneous Buried Archaeological Features Using Multisensor Data from Unmanned Aerial Vehicles

Brooke

Clutterbuck

2019

Remote Sensing

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There is a long history of the use of aerial imagery for archaeological research, but the application of multisensor image data has only recently been facilitated by the development of unmanned aerial vehicles (UAVs). Two archaeological sites in the East Midlands U.K. that differ in age and topography were selected for survey using multisensor imaging from a fixed-wing UAV. The aim of this study was to determine optimum methodology for the use of UAVs in examining archaeological sites that have no obvious surface features and examine issues of ground control target design, thermal effects, image processing and advanced filtration. The information derived from the range of sensors used in this study enabled interpretation of buried archaeology at both sites. For any archaeological survey using UAVs, the acquisition of visible colour (RGB), multispectral, and thermal imagery as a minimum are advised, as no single technique is sufficient to attempt to reveal the maximum amount of potential information.

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Section: Overviewmentioning

confidence: 99%

Mapping Heterogeneous Buried Archaeological Features Using Multisensor Data from Unmanned Aerial Vehicles

Brooke

Clutterbuck

2019

Remote Sensing

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“…DRM can be made after filtering or editing DSM (a typical real relief is without vegetation, constructions, buildings and cars, for example). Our department uses all the methods for getting DRM or DSM (Sedina, 2018). Laser scanning or terrestrial photogrammetry can be used for small objects or areas, while for large areas winged drones like eBee (area up to square kilometres) or multicopters like DJI Phantom 4 or Mavic (hectares) are used.…”

Section: Figure 8 3d Model Of Nahum´s Shrine Created By Ibmrmentioning

confidence: 99%

Virtual Museums – The Future of Historical Monuments Documentation and Visualization

Pavelka

Raeva

2019

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. Technology development now allows us to display the virtual reality (VR) world in a relatively high quality. VR is beginning to be used in many fields and getting many uses. This technology will be used more and more in the future and photogrammetry will not be an exception. For a long time, it has not been possible to present models in any other interesting form than in simple 3D model viewers or directly in the software where this model was built. In our case, this technology was used to create a beta version of a virtual museum that includes, in the beginning, some historical objects documented last year with appropriate technology which allows the transfer of models directly to the VR world. All the models that were presented in the museum had been created from aerial or ground photos, and some of them had been created by a combination of both technologies or in combination with laser scanned data. If we want to use 3D models from photogrammetry, which gets us a realistic copy of a documented object, it is necessary to optimize the photogrammetrical technology for the VR use. The paper introduces all steps of the workflow of how we can obtain a model which could be applicate in VR.

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“…In addition to this, approximately 2000 pictures were taken with the photogrammerical IBMR method by the Canon Mark 5D calibrated camera. Finally, the aerial photogrammetry method was used for the processing of aerial photos (Matouskova, 2016b) (Sedina, 2018b) (Faltynova, 2016) , with about 100 aerial pictures taken by RPAS (Remotely Piloted Aircraft System) DJI Phantom 4 for the creation of an ortophoto of the nearest neighbourhood of the shrine ( fig.1-2, fig.6). The laser scanner data was registered to the detail model that contains about 100 million points.…”

Section: Phase Onementioning

confidence: 99%

Combined Precise Documentation and Virtual Reconstruction of Prophet Nahum Shrine in Alqosh, Iraq

Pavelka

Šedina

2019

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. In today's world, cooperation between companies that specialize in certain processes is important. There is a long term cooperation between the company GemaArt, focused on historical monument restoration and the Czech Technical University, Faculty of Civil Engineering, dept. of Geomatics, Laboratory of photogrammetry Since 2006, we have finished a lot of projects focused on historical monument care. In the frame of our last project, which was focused on the revitalization and restoration of the Prophet Nahum Shrine in Alqosh in the Iraqi Region of Kurdistan, the detailed documentation and geophysical research of the shrine was carried out in 2018. Close-range photogrammetry, UAV and laser scanning were used for the basic documentation. Several data merge experiments were performed during processing. Significant was the transfer of the main object to the VR, which allows viewing of the object by other professionals without a direct visit to the site and to preserve its original condition before reconstruction.

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Using RPAS for the detection of archaeological objects using multispectral and thermal imaging

Cited by 23 publications

References 14 publications

Mapping Heterogeneous Buried Archaeological Features Using Multisensor Data from Unmanned Aerial Vehicles

Mapping Heterogeneous Buried Archaeological Features Using Multisensor Data from Unmanned Aerial Vehicles

Virtual Museums – The Future of Historical Monuments Documentation and Visualization

Combined Precise Documentation and Virtual Reconstruction of Prophet Nahum Shrine in Alqosh, Iraq

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