Application of a 3D photorealistic model for the geological analysis of the Permian carbonates (Khuff Formation) in Saudi Arabia |
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| Authors: | Mansour S Alhumimidi Mohammed S Alfarhan Jarvis R Cline Carlos L V Aiken |
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| Institution: | 1.Department of Geosciences,University of Texas at Dallas,Richardson,USA;2.National Petroleum and Gas Center - Water and Energy Research Institute,King Abdulaziz City for Sciences and Technology,Riyadh,Kingdom of Saudi Arabia;3.National Remote Sensing Technology Center - Space and Aeronautics Research Institute,King Abdulaziz City for Sciences and Technology,Riyadh,Kingdom of Saudi Arabia |
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| Abstract: | Three dimensional (3D) photorealistic models of geological outcrops have the potential to enhance the teaching of earth sciences by providing scale models in a virtual reality environment. These models can be run on low-cost desktop computers. Photorealistic models for geological outcrops are a digital illustration of outcrop photographs with either a point cloud representation or Triangular Irregular Network (TIN) mesh of the outcrop surface. The level of detail for these models is dependent on the target resolutions (physical and optical) that were used during data acquisition. In addition, the technique in which the data is rendered as a digital model affects the level of detail that can be observed by the geologists. A colored point cloud representation is suitable for large-scale features, but fine details are lost when the geologist zooms in to view the model close up. In contrast, a photorealistic model that is constructed from photographs draped onto a triangle mesh surface derived from Light Detection and Ranging (LiDAR) point clouds provides a level of detail that is restricted only by the resolution of the photographs. |
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