QSplat: a multiresolution point rendering system for large meshes
Proceedings of the 27th annual conference on Computer graphics and interactive techniques
Transactions on computational science XIII
Binocular cursor: enabling selection on transparent displays troubled by binocular parallax
Proceedings of the SIGCHI Conference on Human Factors in Computing Systems
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In parallel to the development of computer graphics, and despite their noninteractivity, advances in optical and digital holography have made possible the creation of new fields including interferometry, copy protection, data storage, holographic optical elements, and display holograms. Display holography in particular has conquered several application domains. Optical holograms provide a terapixel resolution and can present information content in the range of terabytes in real time. The goal of the HoloGraphics project at Bauhaus-University Weimar was to investigate possibilities of combining the advantages of conventional holograms with the advantages of today's computer graphics capabilities. This article presents some of the project's findings.