Range imaging offers an inexpensive and accurate means for digitizing the shape of three-dimensional objects. Because most objects self occlude, no single range image suffices to describe the entire object. We present a method for combining a collection of range images into a single polygonal mesh that completely describes an object to the extent that it is visible from the outside.
The steps in our method are: 1) align the meshes with each other using a modified iterated closest-point algorithm, 2) zipper together adjacent meshes to form a continuous surface that correctly captures the topology of the object, and 3) compute local weighted averages of surface positions on all meshes to form a consensus surface geometry.
Our system differs from previous approaches in that it is incremental; scans are acquired and combined one at a time. This approach allows us to acquire and combine large numbers of scans with minimal storage overhead. Our largest models contain up to 360,000 triangles. All the steps needed to digitize an object that requires up to 10 range scans can be performed using our system with five minutes of user interaction and a few hours of compute time. We show two models created using our method with range data from a commercial rangefinder that employs laser stripe technology.
范围成像为数字化三维物体的形状提供了一种廉价而准确的手段。由于大多数对象会自行遮挡,因此没有一个范围图像足以描述整个对象。我们提出了一种将距离图像集合组合到单个多边形网格中的方法,该网格在从外部可见的范围内完整地描述了对象。
我们的方法中的步骤是:1)使用改进的迭代最近点算法将网格彼此对齐; 2)将相邻网格拉链在一起以形成连续的表面,以正确捕获对象的拓扑;以及3)计算所有网格上表面位置的局部加权平均值,以形成一致的表面几何形状。
我们的系统与以前的方法不同之处在于它是增量式的。一次获取扫描并合并一次。这种方法使我们能够以最少的存储开销获取并合并大量扫描。我们最大的模型包含多达360,000个三角形。使用我们的系统,只需五分钟的用户交互和几小时的计算时间,就可以将需要最多进行10次范围扫描的对象数字化所需的所有步骤。我们展示了使用我们的方法创建的两个模型,这些模型来自采用激光条纹技术的商用测距仪的测距数据。
机译:大型多边形网格透明可视化中多边形边缘的随机高亮显示:在可视化高能基本粒子检测器中的应用
机译:非共形网格上大型滑动接触建模的多边形有限元技术多边形形状函数的研究
机译:具有有界误差自适应三角网格的距离图像的粗到细近似
机译:大尺寸多边形网格透明可视化中突出多边形边缘 - 应用高能粒度检测器
机译:用于多边形网格上辐射传输建模的子元素扫描方法。
机译:生成架构的Evo-Devo策略:多边形网格中基于颜色的模式
机译:SPHERIGON:一个简单的多边形补丁,可快速平滑多边形网格。
