Abstract
Change detection (CD), one of the primary applications of multi-temporal satellite images, is the process of identifying changes in the Earth’s surface occurring over a period of time using images of the same geographic area on different dates. CD is divided into pixel-based change detection (PBCD) and object-based change detection (OBCD). Although PBCD is more popular due to its simple algorithms and relatively easy quantitative analysis, applying this method in very high resolution (VHR) images often results in misdetection or noise. Because of this, researchers have focused on extending the PBCD results to the OBCD map in VHR images. In this paper, we present a proposed weighted Dempster-Shafer theory (wDST) fusion method to generate the OBCD by combining multiple PBCD results. The proposed wDST approach automatically calculates and assigns a certainty weight for each object of the PBCD result while considering the stability of the object. Moreover, the proposed wDST method can minimize the tendency of the number of changed objects to decrease or increase based on the ratio of changed pixels to the total pixels in the image when the PBCD result is extended to the OBCD result. First, we performed co-registration between the VHR multitemporal images to minimize the geometric dissimilarity. Then, we conducted the image segmentation of the co-registered pair of multitemporal VHR imagery. Three change intensity images were generated using change vector analysis (CVA), iteratively reweighted-multivariate alteration detection (IRMAD), and principal component analysis (PCA). These three intensity images were exploited to generate different binary PBCD maps, after which the maps were fused with the segmented image using the wDST to generate the OBCD map. Finally, the accuracy of the proposed CD technique was assessed by using a manually digitized map. Two VHR multitemporal datasets were used to test the proposed approach. Experimental results confirmed the superiority of the proposed method by comparing the existing PBCD methods and the OBCD method using the majority voting technique.
Highlights
With the development of various optical satellite sensors capable of acquiring very high resolution (VHR) images, the images have been used in a wide range of applications in the remote sensing field.Among them, change detection (CD), the process of identifying changes in the surface of the Earth occurring over a period of time using images covering the same geographic area acquired on different dates, has proved to be a popular technique [1,2,3,4,5]
To minimize the problems caused by using the Dempster-Shafer Theory (DST) and majority voting techniques to fuse the pixel-based change detection (PBCD) results, we proposed a weighted DST fusion method to extend the PBCD methods to the object-based change detection (OBCD)
Comparative analysis with existing PBCD and OBCD methods on the datasets verified the superiority of the proposed method by yielding the highest F1-score and kappa values
Summary
With the development of various optical satellite sensors capable of acquiring very high resolution (VHR) images, the images have been used in a wide range of applications in the remote sensing field.Among them, change detection (CD), the process of identifying changes in the surface of the Earth occurring over a period of time using images covering the same geographic area acquired on different dates, has proved to be a popular technique [1,2,3,4,5]. For VHR remote sensed imagery, accurate CD results can be obtained thanks to abundant spatial and contextual information [8,9]. Applications such as urban expansion monitoring [10,11], changed building detection [12], forest observation [13], and flood monitoring [14] can benefit from the CD approach using VHR multitemporal images. Among the numerous CD techniques that have been developed, the most common and easy to use is the unsupervised pixel-based change detection (PBCD) It acquires information on land cover change by measuring the change in intensity through a comparison of pixels on multitemporal images. A binary threshold is estimated to separate the pixels of the change intensity image into changed and unchanged classes [19]
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