Object recognition with informative features and linear classification

Michel Vidal-Naquet, S. Ullman
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引用次数: 268

Abstract

We show that efficient object recognition can be obtained by combining informative features with linear classification. The results demonstrate the superiority of informative class-specific features, as compared with generic type features such as wavelets, for the task of object recognition. We show that information rich features can reach optimal performance with simple linear separation rules, while generic feature based classifiers require more complex classification schemes. This is significant because efficient and optimal methods have been developed for spaces that allow linear separation. To compare different strategies for feature extraction, we trained and compared classifiers working in feature spaces of the same low dimensionality, using two feature types (image fragments vs. wavelets) and two classification rules (linear hyperplane and a Bayesian network). The results show that by maximizing the individual information of the features, it is possible to obtain efficient classification by a simple linear separating rule, as well as more efficient learning.
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基于信息特征和线性分类的目标识别
我们证明了将信息特征与线性分类相结合可以获得有效的目标识别。结果表明,与一般类型特征(如小波)相比,信息类特定特征在目标识别任务中具有优势。研究表明,信息丰富的特征可以通过简单的线性分离规则达到最优性能,而基于一般特征的分类器需要更复杂的分类方案。这一点很重要,因为对于允许线性分离的空间,已经开发出了高效和最佳的方法。为了比较不同的特征提取策略,我们使用两种特征类型(图像片段与小波)和两种分类规则(线性超平面和贝叶斯网络)训练并比较了在相同低维特征空间中工作的分类器。结果表明,通过最大化特征的个体信息,可以通过简单的线性分离规则获得有效的分类,并且可以提高学习效率。
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