从时间序列体数据获取铰接刚体的运动结构

International Conference on Informatics Education and Research for Knowledge-Circulating Society (icks 2008) Pub Date : 2008-01-17 DOI:10.1109/ICKS.2008.23

T. Mukasa

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引用次数: 0

摘要

本文提出了一种从时间序列体数据中获取三维运动结构和运动的新方案。我们的基本策略是首先利用目标表面顶点间的测地距离计算伪内骨骼Reeb图(pseudo Endoskeleton Reeb Graph, pERG)来表示每一帧目标的形状结构，然后估计出与这些形状结构一致的目标的运动结构。尽管每帧的形状结构可能非常不同，但我们建议通过聚类图节点的方式推导出独特的运动结构，基于它们在一定程度上的时间序列是部分连贯的事实。我们所作的唯一假设是，人体可以近似为具有一定数量的端点和分支的铰接体。通过实验验证了该方案的有效性和局限性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Acquisition of Kinematic Structure of Articulated Rigid Bodies from Time Series Volume Data

This paper presents a new scheme for acquiring 3D kinematic structure and motion from time series volume data. Our basic strategy is to first represent the shape structure of the target in each frame by pseudo Endoskeleton Reeb Graph (pERG) which we compute by using geodesic distance between vertices on the target's surface, and then estimate the kinematic structure of the target that is consistent with these shape structures. Although the shape structures can be very different from frame to frame, we propose to derive a unique kinematic structure by way of clustering nodes of a graph, based on the fact that they are partly coherent to a certain extent of time series. The only assumption we make is that the human body can be approximated by an articulated body with certain numbers of end-points and branches. We demonstrate the efficacy and the limitation of the proposed scheme through experiments.

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International Conference on Informatics Education and Research for Knowledge-Circulating Society (icks 2008)

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