异构自相似特征(HASC):利用关系信息进行分类

Marco San-Biagio, M. Crocco, M. Cristani, Samuele Martelli, Vittorio Murino
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引用次数: 41

摘要

通过考虑视觉对象的特征是如何相互关联来捕捉其本质特征是最近的一种对象分类哲学。在本文中,我们将这一原理嵌入到一种新的图像描述符中,称为异构自相似特征(HASC)。HASC应用于异构密集特征映射,通过协方差编码线性关系,通过互信息和熵等信息理论度量编码非线性关联。通过这种方式,高度复杂的结构信息可以以紧凑、尺度不变和鲁棒的方式表达。HASC的有效性在许多不同的检测和分类场景中进行了测试,考虑到物体,纹理和行人,以及众所周知的基准(Caltech-101, Brodatz, Daimler Multi-Cue)。在所有情况下,使用标准分类器获得的结果都证明了HASC相对于目前最常用的局部特征描述符(如SIFT、HOG、LBP和特征共方差)的优越性。此外,HASC在Brodatz纹理数据集和Daimler Multi-Cue行人数据集上设置了最先进的技术,而无需利用特别复杂的分类器。
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Heterogeneous Auto-similarities of Characteristics (HASC): Exploiting Relational Information for Classification
Capturing the essential characteristics of visual objects by considering how their features are inter-related is a recent philosophy of object classification. In this paper, we embed this principle in a novel image descriptor, dubbed Heterogeneous Auto-Similarities of Characteristics (HASC). HASC is applied to heterogeneous dense features maps, encoding linear relations by co variances and nonlinear associations through information-theoretic measures such as mutual information and entropy. In this way, highly complex structural information can be expressed in a compact, scale invariant and robust manner. The effectiveness of HASC is tested on many diverse detection and classification scenarios, considering objects, textures and pedestrians, on widely known benchmarks (Caltech-101, Brodatz, Daimler Multi-Cue). In all the cases, the results obtained with standard classifiers demonstrate the superiority of HASC with respect to the most adopted local feature descriptors nowadays, such as SIFT, HOG, LBP and feature co variances. In addition, HASC sets the state-of-the-art on the Brodatz texture dataset and the Daimler Multi-Cue pedestrian dataset, without exploiting ad-hoc sophisticated classifiers.
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