Viewpoint-Invariant and Illumination-Invariant Classification of Natural Surfaces Using General-Purpose Color and Texture Features with the ALISA dCRC Classifier

35th IEEE Applied Imagery and Pattern Recognition Workshop (AIPR'06) Pub Date : 2006-10-11 DOI:10.1109/AIPR.2006.40

Teddy Ko, P. Bock

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引用次数: 1

Abstract

The paper reports the development of a classifier that can accurately and reliably discriminate among a large number of different natural surfaces in canonical and natural color images regardless of the viewpoint and illumination conditions. To achieve this objective, a set of general-purpose color and texture features were identified as the input to an ALISA statistical learning engine. These general-purpose color and texture features are those which exhibit the least sensitivity to illumination and viewpoint variation in a broad range of applications. To overcome the Bayesian confusion while a large number of test classes are involved, an ALISA deltaCRC classification method is developed. The classifier selects the trained class which has a known reclassification distribution histogram of a training image patch that is most closely matched with the unknown classification distribution of the test image patch. Preliminary results using the CUReT color texture dataset with test images not in the training set yields average classification accuracies well above 95% with no significant associated cost in computation time.

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基于ALISA dCRC分类器的基于通用颜色和纹理特征的自然表面视点不变和光照不变分类

本文报道了一种分类器的开发，该分类器可以在标准和自然彩色图像中准确可靠地区分大量不同的自然表面，而不考虑视点和照明条件。为了实现这一目标，一组通用的颜色和纹理特征被识别为ALISA统计学习引擎的输入。这些通用的颜色和纹理特征在广泛的应用中对照明和视点变化表现出最小的敏感性。为了克服涉及大量测试类时的贝叶斯混淆，提出了一种ALISA deltaCRC分类方法。分类器选择具有已知的训练图像patch的重分类分布直方图，且与未知的测试图像patch的分类分布最匹配的训练类。使用CUReT颜色纹理数据集和未在训练集中的测试图像的初步结果显示，平均分类准确率远高于95%，且没有显著的计算时间成本。

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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35th IEEE Applied Imagery and Pattern Recognition Workshop (AIPR'06)

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