Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Real-Time Occlusion Handling for Dynamic Augmented Reality Using Geometric Sensing and Graphical Shading
The primary challenge in generating convincing augmented reality (AR) graphics is to project three-dimensional (3D) models onto a user’s view of the real world and create a temporal and spatial sustained illusion that the virtual and real objects coexist. Regardless of the spatial relationship between the real and virtual objects, traditional AR graphical engines break the illusion of coexistence by displaying the real world merely as a background and superimposing virtual objects on the foreground. This research proposes a robust depth-sensing and frame buffer algorithm for handling occlusion problems in ubiquitous AR applications. A high-accuracy time-of-flight (TOF) camera is used to capture the depth map of the real world in real time. The distance information is processed in parallel using the OpenGL shading language (GLSL) and render to texture (RTT) techniques. The final processing results are written to the graphics frame buffers, allowing accurate depth resolution and hidden surface removal in composite AR scenes. The designed algorithm is validated in several indoor and outdoor experiments using the scalable and modular augmented reality template (SMART) AR framework.
Real-Time Occlusion Handling for Dynamic Augmented Reality Using Geometric Sensing and Graphical Shading
The primary challenge in generating convincing augmented reality (AR) graphics is to project three-dimensional (3D) models onto a user’s view of the real world and create a temporal and spatial sustained illusion that the virtual and real objects coexist. Regardless of the spatial relationship between the real and virtual objects, traditional AR graphical engines break the illusion of coexistence by displaying the real world merely as a background and superimposing virtual objects on the foreground. This research proposes a robust depth-sensing and frame buffer algorithm for handling occlusion problems in ubiquitous AR applications. A high-accuracy time-of-flight (TOF) camera is used to capture the depth map of the real world in real time. The distance information is processed in parallel using the OpenGL shading language (GLSL) and render to texture (RTT) techniques. The final processing results are written to the graphics frame buffers, allowing accurate depth resolution and hidden surface removal in composite AR scenes. The designed algorithm is validated in several indoor and outdoor experiments using the scalable and modular augmented reality template (SMART) AR framework.
Real-Time Occlusion Handling for Dynamic Augmented Reality Using Geometric Sensing and Graphical Shading
Dong, Suyang (Autor:in) / Feng, Chen (Autor:in) / Kamat, Vineet R. (Autor:in)
Journal of Computing in Civil Engineering ; 27 ; 607-621
05.12.2012
152013-01-01 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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Occlusion Handling Method for Ubiquitous Augmented Reality Using Reality Capture Technology and GLSL
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