Scene classification using local and global features with collaborative representation fusion

•A scene classification based on collaborative representation fusion is proposed.•The complementary nature of local and global spatial features is investigated.•Weighted fusion is designed based on residuals from two types of features.•Proposed LGF overcomes difficulties residing in feature or decis...

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Vydáno v:Information sciences Ročník 348; s. 209 - 226
Hlavní autoři: Zou, Jinyi, Li, Wei, Chen, Chen, Du, Qian
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Inc 20.06.2016
Témata:
Classification
Collaborative representation-based classification
Feature extraction
Gray scale
Locality-constrained linear coding
Partitioning
Representations
Scene classification
Spatial pyramid matching
Vector quantization
Visual
Scene classification
Locality-constrained linear coding
Collaborative representation-based classification
Spatial pyramid matching
ISSN:0020-0255, 1872-6291
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Shrnutí:•A scene classification based on collaborative representation fusion is proposed.•The complementary nature of local and global spatial features is investigated.•Weighted fusion is designed based on residuals from two types of features.•Proposed LGF overcomes difficulties residing in feature or decision level fusion. This paper presents an effective scene classification approach based on collaborative representation fusion of local and global spatial features. First, a visual word codebook is constructed by partitioning an image into dense regions, followed by the typical k-means clustering. A locality-constrained linear coding is employed on dense regions via the visual codebook, and a spatial pyramid matching strategy is then used to combine local features of the entire image. For global feature extraction, the method called multiscale completed local binary patterns (MS-CLBP) is applied to both the original gray scale image and its Gabor feature images. Finally, kernel collaborative representation-based classification (KCRC) is employed on the extracted local and global features, and class label of the testing image is assigned according to the minimal approximation residual after fusion. The proposed method is evaluated by using four commonly-used datasets including two remote sensing images datasets, an indoor and outdoor scenes dataset, and a sports action dataset. Experimental results demonstrate that the proposed method significantly outperforms the state-of-the-art methods.
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ISSN:0020-0255
1872-6291
DOI:10.1016/j.ins.2016.02.021