基于局部几何特征的三维物体相似度搜索

Yingliang Lu, K. Kaneko, A. Makinouchi
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引用次数: 3

摘要

在空间数据库中搜索与给定对象相似的3D对象是许多数据库应用中出现的重要任务,例如在医学和CAD领域。现有的相似度搜索方法大多是基于三维物体的全局特征。利用三维物体的局部特征来开发其特征集或特征向量是一个具有挑战性的问题。本文提出了一种新的快速匹配三维目标的段权向量。我们还描述了一种基于局部和几何相似性的解决方案来搜索相似的三维物体。作为第一步,我们将每个3D对象根据其拓扑结构分成几个部分。在此基础上,提出了一种提取三维物体各部分厚度特征生成其特征向量的新方法,并提出了一种利用新特征向量进行搜索的新算法。最后,提出了一种提高相似度查询准确率的新方法。我们还对我们的战略进行了绩效评估。实验结果和讨论表明,与现有方法相比,该方法的性能有显著提高。由于该方法是基于局部特征的,因此特别适合搜索具有不同零件结构的对象,并且对零件结构具有不变性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Using a Partial Geometric Feature for Similarity Search of 3D Objects
Searching in a spatial database for 3D objects that are similar to a given object is an important task that arises in a number of database applications, for example, in medicine and CAD fields. Most of the existing similarity searching methods are based on global features of 3D objects. Developing a feature set or a feature vector of 3D object using their partial features is a challenging. In this paper, we propose a novel segment weight vector for matching 3D objects rapidly. We also describe a partial and geometrical similarity based solution to the problem of searching for similar 3D objects. As the first step, we split each 3D object into parts according to its topology. Next, we introduce a new method to extract the thickness feature of each part of every 3D object to generate its feature vector and a novel searching algorithm using the new feature vector. Finally, we present a novel solution for improving the accuracy of the similarity queries. We also present a performance evaluation of our stratagem. The experiment result and discussion indicate that the proposed approach offers a significant performance improvement over the existing approach. Since the proposed method is based on partial features, it is particularly suited to searching objects having distinct part structures and is invariant to part architecture.
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