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Abstract
The feature of leaky cable fixture extracted by Local Binary Pattern (LBP) and its variants in high-speed railway tunnel has the defects of lacking description and high dimension. This paper proposes a new operator named Multi-scale Continuous Gradient Local Binary Pattern (MCG-LBP), which can realize the scale transformation of feature maps and ensure the low dimensionality of descriptors. For MCG-LBP, firstly a bi-directional triplet around the central pixel is presented to indicate the specific direction of gradient in circle neighborhood. Then, an effective dimensionality reduction strategy is introduced to perform successive down-sampling iterations. Finally, the multi-scale joint descriptors are encoded by continuous gradient sequences from different down-sampling maps, and Support Vector Machines is used to classify faulty cable fixtures. The proposed MCG-LBP can elicit a discriminative description through complementary gradient information generated by the combination of different single-scale features. While the low dimensionality of descriptor and no complex parameter to deal with both make it has higher computational efficiency. Experimental results show that the Recall and Precision of MCG-LBP reach 92.6% and 83.5% respectively on cable fixture data set, which is superior to the state-of-the-art methods.
Highlights
High-speed rail is one of the most economical transportations globally, and it’s a landmark product of modern informatization construction
CS-Local Binary Pattern (LBP) ignores the role of central pixel and it is very troublesome to parameters
Completed Local Ternary Pattern (CLTP) has subdivided texture features further, it causes a serious limitation of excessively large dimensions [19]
Summary
We mainly introduce the feature extraction algorithms such as LBP, CS-LBP and ARCS-LBP. C. THE EXTRACTION PROCESS OF CONTINUOUS GRADIENT FEATURE Deep mining operators and fusion feature operators of LBP almost only perform texture analysis based on the gray level difference by local sampling points, but ignore the similarity difference between adjacent gradients. Gaussian filtering is performed on the input image, and the imaging effects of their respective preliminary gradient direction feature maps under different threshold conditions are compared. The range of threshold should be as small as possible, it still needs to meet the following two requirements: 1) It must be ensured that the preliminary gradient direction feature map can show the outline of the leaky cable fixture completely and clearly. As we can see from Tab. 2, the time occupancy of extracting each layer feature conforms to (17) It shows the performance of extracting continuous gradient features from each single down-sampling map, including the evaluation indicators of Recall and Precision. Comparison of Recall and Precision with other LBP variant and non-LBP operators
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