The Experts below are selected from a list of 41844 Experts worldwide ranked by ideXlab platform
A. A. Bin Saeman - One of the best experts on this subject based on the ideXlab platform.
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THREE-DIMENSIONAL MAPPING OF AN ANCIENT CAVE PAINTINGS USING CLOSE-RANGE Photogrammetry AND TERRESTRIAL LASER SCANNING TECHNOLOGIES
ISPRS - International Archives of the Photogrammetry Remote Sensing and Spatial Information Sciences, 2017Co-Authors: Z. Majid, M. F. M. Ariff, K. M. Idris, A. R. Yusoff, A. Aspuri, M. A. Abbas, K. Zainuddin, A. R. A. Ghani, A. A. Bin SaemanAbstract:The paper describes the used of close-range Photogrammetry and terrestrial laser scanning technologies as an innovative technology for acquiring the three-dimensional data of an ancient cave paintings. The close-range Photogrammetry technology used in the research was divided in two categories which are the UAV-based close-range Photogrammetry and the terrestrialbased close-range Photogrammetry. The UAV-based technology involved with the used of calibrated Phantom 4 System while the terrestrial-based technology involved with the calibrated Sony F828 digital camera and pPhotoModeler software. Both stereo and convergent image acquisition techniques were used to acquire the images of the paintings. The ancient cave paintings were also recorded using terrestrial laser scanning technology. In the research, the FARO Focus 3D terrestrial laser scanner was used to capture the three-dimensional point clouds and images of the paintings. The finding shows that both close-range Photogrammetry and laser scanning technologies provide excellent solutions to map and to record the ancient paintings. As compared to the conventional method, both close-range Photogrammetry and terrestrial laser scanning technology provide a noncontact solution for data acquisition and the data was recorded in digital format for better protection and security.
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Three-dimensional mapping of an ancient cave paintings using close-range Photogrammetry and terrestrial laser scanning technologies
ISPRS - International Archives of the Photogrammetry Remote Sensing and Spatial Information Sciences, 2017Co-Authors: Z. Majid, M. F. M. Ariff, K. M. Idris, A. R. Yusoff, A. Aspuri, M. A. Abbas, K. Zainuddin, A. R. A. Ghani, A. A. Bin SaemanAbstract:Abstract. The paper describes the used of close-range Photogrammetry and terrestrial laser scanning technologies as an innovative technology for acquiring the three-dimensional data of an ancient cave paintings. The close-range Photogrammetry technology used in the research was divided in two categories which are the UAV-based close-range Photogrammetry and the terrestrialbased close-range Photogrammetry. The UAV-based technology involved with the used of calibrated Phantom 4 System while the terrestrial-based technology involved with the calibrated Sony F828 digital camera and pPhotoModeler software. Both stereo and convergent image acquisition techniques were used to acquire the images of the paintings. The ancient cave paintings were also recorded using terrestrial laser scanning technology. In the research, the FARO Focus 3D terrestrial laser scanner was used to capture the three-dimensional point clouds and images of the paintings. The finding shows that both close-range Photogrammetry and laser scanning technologies provide excellent solutions to map and to record the ancient paintings. As compared to the conventional method, both close-range Photogrammetry and terrestrial laser scanning technology provide a noncontact solution for data acquisition and the data was recorded in digital format for better protection and security.
K. M. Idris - One of the best experts on this subject based on the ideXlab platform.
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THREE-DIMENSIONAL MAPPING OF AN ANCIENT CAVE PAINTINGS USING CLOSE-RANGE Photogrammetry AND TERRESTRIAL LASER SCANNING TECHNOLOGIES
ISPRS - International Archives of the Photogrammetry Remote Sensing and Spatial Information Sciences, 2017Co-Authors: Z. Majid, M. F. M. Ariff, K. M. Idris, A. R. Yusoff, A. Aspuri, M. A. Abbas, K. Zainuddin, A. R. A. Ghani, A. A. Bin SaemanAbstract:The paper describes the used of close-range Photogrammetry and terrestrial laser scanning technologies as an innovative technology for acquiring the three-dimensional data of an ancient cave paintings. The close-range Photogrammetry technology used in the research was divided in two categories which are the UAV-based close-range Photogrammetry and the terrestrialbased close-range Photogrammetry. The UAV-based technology involved with the used of calibrated Phantom 4 System while the terrestrial-based technology involved with the calibrated Sony F828 digital camera and pPhotoModeler software. Both stereo and convergent image acquisition techniques were used to acquire the images of the paintings. The ancient cave paintings were also recorded using terrestrial laser scanning technology. In the research, the FARO Focus 3D terrestrial laser scanner was used to capture the three-dimensional point clouds and images of the paintings. The finding shows that both close-range Photogrammetry and laser scanning technologies provide excellent solutions to map and to record the ancient paintings. As compared to the conventional method, both close-range Photogrammetry and terrestrial laser scanning technology provide a noncontact solution for data acquisition and the data was recorded in digital format for better protection and security.
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Three-dimensional mapping of an ancient cave paintings using close-range Photogrammetry and terrestrial laser scanning technologies
ISPRS - International Archives of the Photogrammetry Remote Sensing and Spatial Information Sciences, 2017Co-Authors: Z. Majid, M. F. M. Ariff, K. M. Idris, A. R. Yusoff, A. Aspuri, M. A. Abbas, K. Zainuddin, A. R. A. Ghani, A. A. Bin SaemanAbstract:Abstract. The paper describes the used of close-range Photogrammetry and terrestrial laser scanning technologies as an innovative technology for acquiring the three-dimensional data of an ancient cave paintings. The close-range Photogrammetry technology used in the research was divided in two categories which are the UAV-based close-range Photogrammetry and the terrestrialbased close-range Photogrammetry. The UAV-based technology involved with the used of calibrated Phantom 4 System while the terrestrial-based technology involved with the calibrated Sony F828 digital camera and pPhotoModeler software. Both stereo and convergent image acquisition techniques were used to acquire the images of the paintings. The ancient cave paintings were also recorded using terrestrial laser scanning technology. In the research, the FARO Focus 3D terrestrial laser scanner was used to capture the three-dimensional point clouds and images of the paintings. The finding shows that both close-range Photogrammetry and laser scanning technologies provide excellent solutions to map and to record the ancient paintings. As compared to the conventional method, both close-range Photogrammetry and terrestrial laser scanning technology provide a noncontact solution for data acquisition and the data was recorded in digital format for better protection and security.
Z. Majid - One of the best experts on this subject based on the ideXlab platform.
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THREE-DIMENSIONAL MAPPING OF AN ANCIENT CAVE PAINTINGS USING CLOSE-RANGE Photogrammetry AND TERRESTRIAL LASER SCANNING TECHNOLOGIES
ISPRS - International Archives of the Photogrammetry Remote Sensing and Spatial Information Sciences, 2017Co-Authors: Z. Majid, M. F. M. Ariff, K. M. Idris, A. R. Yusoff, A. Aspuri, M. A. Abbas, K. Zainuddin, A. R. A. Ghani, A. A. Bin SaemanAbstract:The paper describes the used of close-range Photogrammetry and terrestrial laser scanning technologies as an innovative technology for acquiring the three-dimensional data of an ancient cave paintings. The close-range Photogrammetry technology used in the research was divided in two categories which are the UAV-based close-range Photogrammetry and the terrestrialbased close-range Photogrammetry. The UAV-based technology involved with the used of calibrated Phantom 4 System while the terrestrial-based technology involved with the calibrated Sony F828 digital camera and pPhotoModeler software. Both stereo and convergent image acquisition techniques were used to acquire the images of the paintings. The ancient cave paintings were also recorded using terrestrial laser scanning technology. In the research, the FARO Focus 3D terrestrial laser scanner was used to capture the three-dimensional point clouds and images of the paintings. The finding shows that both close-range Photogrammetry and laser scanning technologies provide excellent solutions to map and to record the ancient paintings. As compared to the conventional method, both close-range Photogrammetry and terrestrial laser scanning technology provide a noncontact solution for data acquisition and the data was recorded in digital format for better protection and security.
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Three-dimensional mapping of an ancient cave paintings using close-range Photogrammetry and terrestrial laser scanning technologies
ISPRS - International Archives of the Photogrammetry Remote Sensing and Spatial Information Sciences, 2017Co-Authors: Z. Majid, M. F. M. Ariff, K. M. Idris, A. R. Yusoff, A. Aspuri, M. A. Abbas, K. Zainuddin, A. R. A. Ghani, A. A. Bin SaemanAbstract:Abstract. The paper describes the used of close-range Photogrammetry and terrestrial laser scanning technologies as an innovative technology for acquiring the three-dimensional data of an ancient cave paintings. The close-range Photogrammetry technology used in the research was divided in two categories which are the UAV-based close-range Photogrammetry and the terrestrialbased close-range Photogrammetry. The UAV-based technology involved with the used of calibrated Phantom 4 System while the terrestrial-based technology involved with the calibrated Sony F828 digital camera and pPhotoModeler software. Both stereo and convergent image acquisition techniques were used to acquire the images of the paintings. The ancient cave paintings were also recorded using terrestrial laser scanning technology. In the research, the FARO Focus 3D terrestrial laser scanner was used to capture the three-dimensional point clouds and images of the paintings. The finding shows that both close-range Photogrammetry and laser scanning technologies provide excellent solutions to map and to record the ancient paintings. As compared to the conventional method, both close-range Photogrammetry and terrestrial laser scanning technology provide a noncontact solution for data acquisition and the data was recorded in digital format for better protection and security.
Oliver Wings - One of the best experts on this subject based on the ideXlab platform.
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Photogrammetry IN PALEONTOLOGY – A PRACTICAL GUIDE
2014Co-Authors: Heinrich Mallison, Oliver WingsAbstract:Photogrammetry is increasingly becoming the gold standard for surface digitizing in paleontology. We present techniques for specimen handling, photography and image handling in Photogrammetry software that are specially adapted to typical use cases in paleontology, but are also applicable in other science disciplines like archaeology and art history.
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Photogrammetry in paleontology a practical guide
JOURNAL OF PALEONTOLOGICAL TECHNIQUES, 2014Co-Authors: Heinrich Mallison, Oliver WingsAbstract:Photogrammetry is increasingly becoming the gold standard for surface digitizing in paleontology. We present techniques for specimen handling, photography and image handling in Photogrammetry software that are specially adapted to typical use cases in paleontology, but are also applicable in other science disciplines like archaeology and art history.
Seonghyuk Hong - One of the best experts on this subject based on the ideXlab platform.
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Three-Dimensional Digital Documentation of Cultural Heritage Site Based on the Convergence of Terrestrial Laser Scanning and Unmanned Aerial Vehicle Photogrammetry
ISPRS international journal of geo-information, 2019Co-Authors: Seonghyuk HongAbstract:Three-dimensional digital technology is important in the maintenance and monitoring of cultural heritage sites. This study focuses on using a combination of terrestrial laser scanning and unmanned aerial vehicle (UAV) Photogrammetry to establish a three-dimensional model and the associated digital documentation of the Magoksa Temple, Republic of Korea. Herein, terrestrial laser scanning and UAV Photogrammetry was used to acquire the perpendicular geometry of the buildings and sites, where UAV Photogrammetry yielded higher planar data acquisition rate in upper zones, such as the roof of a building, than terrestrial laser scanning. On comparing the two technologies’ accuracy based on their ground control points, laser scanning was observed to provide higher positional accuracy than Photogrammetry. The overall discrepancy between the two technologies was found to be sufficient for the generation of convergent data. Thus, the terrestrial laser scanning and UAV Photogrammetry data were aligned and merged post conversion into compatible extensions. A three-dimensional (3D) model, with planar and perpendicular geometries, based on the hybrid data-point cloud was developed. This study demonstrates the potential for using the integration of terrestrial laser scanning and UAV Photogrammetry in 3D digital documentation and spatial analysis of cultural heritage sites.