用多变量高斯建模局部描述子,用于物体和场景识别

G. Serra, C. Grana, M. Manfredi, R. Cucchiara
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引用次数: 12

摘要

常用的技术通过量化局部描述符并在直方图中总结它们的分布来表示图像。在本文中,我们建议采用参数描述,并将其能力与基于直方图的方法进行比较。我们使用多元高斯分布,应用于SIFT描述符,在空间金字塔上进行密集采样提取。通过连接平均向量和协方差矩阵在与黎曼流形相切的欧几里德空间上的投影,将每个分布转换为高维描述符。在Caltech-101和ImageCLEF2011上使用随机梯度下降求解器进行了实验,该算法允许处理大规模数据集和高维特征空间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling local descriptors with multivariate gaussians for object and scene recognition
Common techniques represent images by quantizing local descriptors and summarizing their distribution in a histogram. In this paper we propose to employ a parametric description and compare its capabilities to histogram based approaches. We use the multivariate Gaussian distribution, applied over the SIFT descriptors, extracted with dense sampling on a spatial pyramid. Every distribution is converted to a high-dimensional descriptor, by concatenating the mean vector and the projection of the covariance matrix on the Euclidean space tangent to the Riemannian manifold. Experiments on Caltech-101 and ImageCLEF2011 are performed using the Stochastic Gradient Descent solver, which allows to deal with large scale datasets and high dimensional feature spaces.
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