Abstract
Imaging with different spectrums often leads to significant nonlinear differences in the intensity, which brings a great challenge to the automatic matching of multispectral images. Considering that there are often limitations to only using intensity information, this article studies multispectral image matching based on the structure consistency. First, an extended log-Gabor filter is constructed to build phase congruency maps, which encodes the structure information and provides rich and robust features. Then, a nonlinear diffusion-based algorithm is developed to detect the salient feature points on the phase congruency map, which are expected to be illumination and contrast invariant. Finally, the structure descriptors are built according to the orientation of the maximum log-Gabor filter responses, and the image matching is achieved by computing the correspondence. Extensive experiments are carried out on various multispectral image datasets. The results show that the proposed method holds a stable performance over the nonlinear intensity variance across spectrums, and outperforms the comparison methods in terms of the number of correct matches and the matching precision.
Highlights
M ULTISPECTRAL imaging has attracted intensive research interests in recent years as it captures richer scene information than common visible-light imaging [1]
The results of Edge histogram descriptor (EHD) and PCEHD are similar, and they are better than the results of the gradient-based descriptor
EHD and PCEHD use the responses of multioriented Sobel filters, and they are better than the results of the scale-invariant feature transform (SIFT) and partial intensity invariant feature descriptor (PIIFD)
Summary
M ULTISPECTRAL imaging has attracted intensive research interests in recent years as it captures richer scene information than common visible-light imaging [1]. The fusion of multispectral images can utilize complementary spectral information and increase the accuracy of image analysis. A critical process is the image matching, which automatically establishes the correspondences between two images. Image matching is a prerequisite step to integrate their spectral. Manuscript received August 20, 2020; revised November 6, 2020; accepted December 4, 2020. Date of publication December 8, 2020; date of current version January 6, 2021.
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