Algorithm research is main part of visualization research, the thesis refers to two kinds of algorithms for volume rendering: Fourier volume rendering and shear-warp volume rendering.
算法研究是可视化的主要研究领域,本文的研究涉及两类体绘制算法:频域体绘制和错切变形体绘制。
In the field of terrain visualization, the most efficient tool for real-time rendering of complex landscape is level of detail (LOD).
在地形可视化领域,实时绘制复杂地形场景的最有效工具是LOD技术。
Volume rendering is also known as direct volume rendering, for no intermediate geometry primitives are generated during its visualization process.
由于体绘制技术是将三维的离散数据直接转换为二维图像而不必生成中间几何图元,所以又称为直接体绘制。
As an effective tool for abstract shape visualization, line drawing falls squarely within the scope of non photorealistic rendering.
线条画作为一种有效表示形状抽象信息的工具,属于非真实感绘制研究的领域。
Volume rendering is often used for 3d volumetric datasets visualization. It can generate high quality images, but can not render volumes and polygons combined scenes.
体绘制技术常用于3维体数据场的可视化,其虽然可以生成高质量的投影图像,但通常不能绘制由体数据与点、线、面图形组成的混合场景。
The experiments show that this algorithm is very good of the real-time LOD controlling for large scale terrain visualization and also for the real-time rendering.
实验证明,该方法对于实时控制大规模地形模型的细节 层次,增强大规模地形模型的绘制效率是非常有效的。
The experiments show that this algorithm is very good of the real-time LOD controlling for large scale terrain visualization and also for the real-time rendering.
实验证明,该方法对于实时控制大规模地形模型的细节 层次,增强大规模地形模型的绘制效率是非常有效的。
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