Automatically compile scan data as a well-structured PDF report.Add bookmarks and supplementary notes to specific measurement points.Determination of position, size and depth of the detected objects even before excavation.Automatic creation of a three-dimensional representation of the recorded measurement data after importing the raw data from the detector.Interactive support by context-sensitive help.By using the innovative analysis software, the position, size and depth of the detected object can be determined more precisely after the measurement with the OKM detector.
MatLab-based extraction backend.Visualizer 3D Studio offers treasure hunters, archaeologists and professional users in industry the possibility to locate and visualize hidden objects in the underground even before excavation. 3D-TSV is accessible to end users via aĬ++- and OpenGL-based rendering frontend that is seamlessly connected to a Additional depth cues improve the perception of the spatial User can select a combined visualization of two principal directions via ToĬonvey ambiguities in the orientation of the principal stress directions, the The algorithm further considers the locations of lines to obtain a more regularĪppearance, and enables the extraction of a level-of-detail representation withĪdjustable sparseness of the trajectories along a certain stress direction. Generating a space-filling and evenly spaced set of mutually orthogonal lines. In the design of 3D-TSV, several perceptualĬhallenges have been addressed when simultaneously visualizing three mutually Renderable representation, and rendering options to convey structures with Their extraction using numerical schemes, their mapping to an effective
3D-TSV provides a modular and generic implementation of keyĪlgorithms required for a trajectory-based visual analysis of principal stressĭirections, including the automatic seeding of space-filling stress lines, Authors: Junpeng Wang, Christoph Neuhauser, Jun Wu, Xifeng Gao, Rüdiger Westermann Download PDF Abstract: We present the 3D Trajectory-based Stress Visualizer (3D-TSV), a visualĪnalysis tool for the exploration of the principal stress directions in 3D
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