梯度样本参数加权鲁棒图像区域描述

2013 IEEE International Conference on Electronics, Computing and Communication Technologies Pub Date : 2013-02-25 DOI:10.1109/CONECCT.2013.6469287

John-Olof Nilsson, P. Handel

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引用次数: 1

摘要

研究了用于图像区域描述符创建的梯度样本参数的加权问题。描述符被解释为分箱和加权参数核密度估计，因此它们的定义属性被标识为分箱规则和加权。进一步研究了权重，分析了四种不同的权重策略。朴素常数加权对图像扰动具有较差的鲁棒性。为了解决这个问题，习惯的梯度幅度加权是有动机的。然而，指出了这种方法的不足，并提出了两种新的加权策略。第一种建议的加权给出了一个系统参数，决定了鲁棒性权衡的独特性，而习惯的幅度加权是它的一个特殊情况。第二种建议的加权方法具有与第一种方法相似的鲁棒性，但计算成本较低。最后，用实际图像数据和合成扰动证明了不同加权策略的效果。

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Gradient sample argument weighting for robust image region description

The weighting of gradient sample arguments for the creation of descriptors of image regions is studied. The descriptors are interpreted as binned and weighted argument kernel density estimates and thereby their defining attributes are identified as the binning rules and the weighting. The weighting is further studied and four different weighting strategies are analyzed. The naive constant weighting is argued to have a poor robustness to image perturbations. As an answer to this, the customary gradient magnitude weighting is motivated. However, the short-comings of this approach are pointed out and two novel weighting strategies are suggested. The first suggested weighting gives a system parameter determining a distinctiveness to robustness trade-off with the customary magnitude weighting being a special case of it. The second suggested weighting gives a similar robustness as the first one, but at a lower computational cost. Finally, the effects of the different weighting strategies are demonstrated with real imagery data and synthetic perturbations.

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2013 IEEE International Conference on Electronics, Computing and Communication Technologies

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