AI Article Synopsis
- This paper introduces an innovative edge-based color image segmentation method that applies particle motion techniques to color images, whereas previous methods could only be used for grayscale images.
- The approach involves creating two new orthogonal vector fields from color images that guide particle movement along object edges, utilizing a normal compressive vector field derived from local color distance images.
- When tested against traditional segmentation methods using various benchmark datasets, the new technique demonstrated superior performance in multiple metrics such as Rand index, global consistency error, and computation speed, making it more effective and noise-resistant.
Article Abstract
This paper presents an edge-based color image segmentation approach, derived from the method of particle motion in a vector image field, which could previously be applied only to monochrome images. Rather than using an edge vector field derived from a gradient vector field and a normal compressive vector field derived from a Laplacian-gradient vector field, two novel orthogonal vector fields were directly computed from a color image, one parallel and another orthogonal to the edges. These were then used in the model to force a particle to move along the object edges. The normal compressive vector field is created from the collection of the center-to-centroid vectors of local color distance images. The edge vector field is later derived from the normal compressive vector field so as to obtain a vector field analogous to a Hamiltonian gradient vector field. Using the PASCAL Visual Object Classes Challenge 2012 (VOC2012), the Berkeley Segmentation Data Set, and Benchmarks 500 (BSDS500), the benchmark score of the proposed method is provided in comparison to those of the traditional particle motion in a vector image field (PMVIF), Watershed, simple linear iterative clustering (SLIC), K-means, mean shift, and J-value segmentation (JSEG). The proposed method yields better Rand index (RI), global consistency error (GCE), normalized variation of information (NVI), boundary displacement error (BDE), Dice coefficients, faster computation time, and noise resistance.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8321147 | PMC |
| http://dx.doi.org/10.3390/jimaging6070072 | DOI Listing |
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