基于近似增量拉普拉斯特征映射和PCA的可扩展训练

Eleni Mantziou, S. Papadopoulos, Y. Kompatsiaris
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引用次数: 8

摘要

本文描述了该方法、实验设置以及采用该方法获得的结果。多媒体大挑战。它的主要贡献是使用快速高效的特征和高度可扩展的半监督学习方法,近似拉普拉斯特征映射(ALEs)及其扩展,通过增量计算测试集来学习与图像数量(标记和未标记)线性的概念。采用VLAD特征聚合法和PCA相结合的两局部视觉特征组合,提高了效率和时间复杂度。与基线(线性支持向量机)相比,我们的方法在小的训练集中获得了更好的准确性,但随着训练数据的增加,性能会有所提高。在50K/concept的训练集上执行ALE融合,MiAP得分为0.4223,是该方法的最高分之一。
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Scalable training with approximate incremental laplacian eigenmaps and PCA
The paper describes the approach, the experimental settings, and the results obtained by the proposed methodology at the ACM Yahoo! Multimedia Grand Challenge. Its main contribution is the use of fast and efficient features with a highly scalable semi-supervised learning approach, the Approximate Laplacian Eigenmaps (ALEs), and its extension, by computing the test set incrementally for learning concepts in time linear to the number of images (both labelled and unlabelled). A combination of two local visual features combined with the VLAD feature aggregation method and PCA is used to improve the efficiency and time complexity. Our methodology achieves somewhat better accuracy compared to the baseline (linear SVM) in small training sets, but improves the performance as the training data increase. Performing ALE fusion on a training set of 50K/concept resulted in a MiAP score of 0.4223, which was among the highest scores of the proposed approach.
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