SAR Image Change Detection Based on Iterative Label-Information Composite Kernel Supervised by Anisotropic Texture

Jia, Lu; Li, Ming; Wu, Yan; Zhang, Peng; Liu, Gaofeng; Chen, Hongmeng; An, Lin

doi:10.1109/tgrs.2015.2388495

Cited by 32 publications

(15 citation statements)

References 26 publications

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“…By deforming the basic structure of the RK function with additional information, for example, the spatial information in the output space, we propose the advanced LIC kernel function in [22]. Forsaking the former habit of deforming the RK's structure, in this paper, we construct a DCK function which is independent of the RK function.…”

Section: A Kernel Methodsmentioning

confidence: 99%

“…In previous work, we propose an iterative LIC kernel [22] change detection method. The LIC kernel is constructed successfully by linearly combing the RK function with the output-space label-neighborhood information extracted under the supervision of anisotropic texture analysis.…”

Section: Comparison Between Lic Kernel Methods and Proposed Dck-basmentioning

confidence: 99%

“…In this part, we summarize the similarities and differences between these two methods for providing an in-depth explanation of characters of them. For more details of the LIC kernel method, please refer to [22].…”

Section: Comparison Between Lic Kernel Methods and Proposed Dck-basmentioning

confidence: 99%

“…The two kernel functions have strong universality for remote sensing image change detection, and the RK function has considerable adaptability to SAR images. After that, we propose a SAR image change detection method [22] based on an iterative labelinformation composite (LIC) kernel and SVM. The LIC kernel is obtained by combining the RK function with the spatial information extracted from the output labels.…”

Section: Introductionmentioning

confidence: 99%

“…The spatial-neighborhood information in the output space improves further the discriminating ability, noise immunity, and regional smoothness of MS-ELM. The proposed DCK-based MS-ELM method has a similar strategy to the LIC kernel method [22]. In this paper, an in-depth theoretical and experimental comparison between the LIC kernel and the DCKbased MS-ELM is given for showing the characters and merits of the proposed method more elaborately and completely.…”

Section: Introductionmentioning

confidence: 99%

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SAR Image Change Detection Based on Correlation Kernel and Multistage Extreme Learning Machine

Jia

Zhang

et al. 2016

IEEE Trans. Geosci. Remote Sensing

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Designing a kernel function with good discriminating ability and a highly application-adaptive kernelized classifier is the key of many kernel methods. However, not many kernel functions combining directly the bitemporal images' information are designed specifically for change detection tasks. In addition, extreme learning machine (ELM) has not found wide applications in change detection tasks, even though it is a potential kernel method possessing outstanding approximation and generalization capabilities as well as great classification accuracy and efficiency. Therefore, an approach relying on a difference correlation kernel (DCK) and a multistage ELM (MS-ELM) is proposed in this paper for synthetic aperture radar (SAR) image change detection. First, a DCK function is constructed specifically for change detection by measuring the "distance" between any two pixels. The DCK function depicts the cross-time similarities between couples of bitemporal image patches at any cyclic shifts with a kernel correlation operation and the high-order spatial distances between two differently located pixels with an algebraic subtraction. The DCK function possesses strong noise immunity and good identification of changed areas simultaneously. Second, an MS-ELM classifier is constructed for obtaining the change detection result. In MS-ELM, the hidden nodes and weights between the hidden and output layers are updated stage by stage by improving the kernel functions that compose them. Each stage of the MS-ELM is a standard kernel-ELM, and the DCK function is utilized inthe first stage. The regenerative kernel functions incorporate the output spatial-neighborhood information of the previous stage for enhancing remarkably the MS-ELM's discriminating ability and noise resistance. The converged result at the last stage of MS-ELM is the final change detection result. Experiments on real SAR image change detection demonstrate the effectiveness of the DCK function and the MS-ELM algorithm, particularly its good identification of changed areas and strong robustness against noise in SAR images. Index Terms-Change detection, difference correlation kernel (DCK) function, multistage extreme learning machine (ELM) (MS-ELM), spatial-neighborhood information, synthetic aperture radar (SAR) image.

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Section: A Kernel Methodsmentioning

confidence: 99%

Section: Comparison Between Lic Kernel Methods and Proposed Dck-basmentioning

confidence: 99%

Section: Comparison Between Lic Kernel Methods and Proposed Dck-basmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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