Hyperbolic "Smoothing" of shapes

Sixth International Conference on Computer Vision (IEEE Cat. No.98CH36271) Pub Date : 1998-01-04 DOI:10.1109/ICCV.1998.710721

Kaleem Siddiqi, A. Tannenbaum, S. Zucker

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引用次数: 20

Abstract

We have been developing a theory of generic 2-D shape based on a reaction-diffusion model from mathematical physics. The description of a shape is derived from the singularities of a curve evolution process driven by the reaction (hyperbolic) term. The diffusion (parabolic) term is related to smoothing and shape simplification. However, the unification of the two is problematic, because the slightest amount of diffusion dominates and prevents the formation of generic first-order shocks. The technical issue is whether it is possible to smooth a shape, in any sense, without destroying the shocks. We now report a constructive solution to this problem, by embedding the smoothing term in a global metric against which a purely hyperbolic evolution is performed from the initial curve. This is a new flow for shape, that extends the advantages of the original one. Specific metrics are developed, which lead to a natural hierarchy of shape features, analogous to the simplification one might perceive when viewing an object from increasing distances. We illustrate our new flow with a variety of examples.

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形状的双曲“平滑”

我们一直在发展一种基于数学物理的反应-扩散模型的一般二维形状理论。形状的描述是由反应(双曲)项驱动的曲线演化过程的奇点推导出来的。扩散(抛物线)项与平滑和形状简化有关。然而，两者的统一是有问题的，因为最少量的扩散占主导地位，并阻止了一般一阶冲击的形成。技术问题是，是否有可能在不破坏冲击的情况下，在任何意义上使一个形状平滑。我们现在报告了这个问题的建设性解决方案，通过将平滑项嵌入到一个全局度量中，根据该度量从初始曲线进行纯双曲演化。这是一种新的形状流，它扩展了原有形状流的优点。具体的度量标准被开发出来，导致形状特征的自然层次结构，类似于从越来越远的距离观看物体时可能感知到的简化。我们用各种各样的例子来说明我们的新流程。

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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Sixth International Conference on Computer Vision (IEEE Cat. No.98CH36271)

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