Improved atomic meshes

Claudio Esperança, Antonio A. F. Oliveira, P. R. Cavalcanti
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引用次数: 2

Abstract

SUMMARYThis work describes several improvements over the technique known as Atomic Meshes introducedby Hale[8], which aims at producing numerical meshes from image data “directly”, i.e., bypassingany image segmentation step. We propose two modifications to Hale’s original idea: (1) a procedurewhereby atoms are initially projected onto perceived features, and (2) the introduction of a Laplaciancomponent to the formulation of the energy field governing atom movement. These aim at improvingthe adaptation of the mesh to the image while producing better shaped triangles. True to Hale’sidea, no image segmentation is ever tried, but since the atom placement and movement criteria aremore sensitive to image borders, experiments indicate that the resulting meshes tend to conform moreclosely to the image features. Copyright °c 2000 John Wiley & Sons, Ltd.key words: Numerical meshes; seismic data; image processing 1. IntroductionCreating meshes which approximate or are in some way conformal to the features of a givenimage has captured the attention of many researchers over the last years. The idea is thatthe resulting mesh contains much of the information of the underlying image which makes itideal for applications such as image compression, image modeling, medical image analysis andothers [13].A particularly interesting application is the creation of meshes from seismic images.Traditionally,thegeologicalinterpretationofseismicdataresultsinasetofcurvesandsurfaces,which are used to construct a consistent earth model. This model can then be used to generatediscrete meshes for several kinds of numerical simulations, such as a reservoir simulation,the propagation of acoustic waves, or large-scale fluid and heat flow within saturated poroussediments.The geological model must contain all of the geological features, such as horizons (separatingsurfaces between geological layers) and faults (discontinuities caused by the brittle behavior
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改进的原子网格
这项工作描述了对Hale b[8]引入的称为原子网格的技术的几项改进,该技术旨在“直接”从图像数据中生成数值网格,即绕过任何图像分割步骤。我们对Hale的原始想法提出了两个修改:(1)原子最初被投射到可感知的特征上的程序,以及(2)在控制原子运动的能量场的公式中引入拉普拉斯分量。这些旨在提高网格对图像的适应性,同时产生更好形状的三角形。真实的Hale’sidea,从来没有尝试过图像分割,但由于原子的位置和运动标准对图像边界更敏感,实验表明,得到的网格倾向于更接近图像特征。关键词:数值网格;地震数据;图像处理在过去的几年里,创建与给定图像的特征近似或在某种程度上符合的网格已经引起了许多研究人员的注意。这个想法是,最终的网格包含了很多底层图像的信息,这对于图像压缩、图像建模、医学图像分析等应用来说是理想的。一个特别有趣的应用是从地震图像中创建网格。传统上,对地震数据的地质解释是对曲线和表面的分析结果,用于构建一致的地球模型。然后,该模型可用于为多种数值模拟生成离散网格,例如储层模拟、声波传播或饱和多孔沉积物中的大规模流体和热流。地质模型必须包含所有的地质特征,如层(地质层之间的分隔面)和断层(由脆性行为引起的不连续面)
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