%0 Journal Article %J IEEE Transactions on Visualization and Computer Graphics %D 2003 %T Modeling and Rendering of Points with Local Geometry %A Kalaiah,Aravind %A Varshney, Amitabh %K differential geometry %K per-pixel shading. %K point sample rendering %K simplification %X We present a novel rendering primitive that combines the modeling brevity of points with the rasterization efficiency of polygons. The surface is represented by a sampled collection of Differential Points (DP), each with embedded curvature information that captures the local differential geometry in the vicinity of that point. This is a more general point representation that, for the cost of a few additional bytes, packs much more information per point than the traditional point-based models. This information is used to efficiently render the surface as a collection of local geometries. To use the hardware acceleration, the DPs are quantized into $\big. 256\bigr.$ different types and each sampled point is approximated by the closest quantized DP and is rendered as a normal-mapped rectangle. The advantages to this representation are: 1) The surface can be represented more sparsely compared to other point primitives, 2) it achieves a robust hardware accelerated per-pixel shading—even with no connectivity information, and 3) it offers a novel point-based simplification technique that factors in the complexity of the local geometry. The number of primitives being equal, DPs produce a much better quality of rendering than a pure splat-based approach. Visual appearances being similar, DPs are about two times faster and require about 75 percent less disk space in comparison to splatting primitives. %B IEEE Transactions on Visualization and Computer Graphics %V 9 %P 30 - 42 %8 2003/// %@ 1077-2626 %G eng %N 1 %R http://doi.ieeecomputersociety.org/10.1109/TVCG.2003.1175095