Wang Weixing, 白明辉. Flotation image segmentation by combining Fractional Differential, improved Level set and Watershed[J]. Advanced Engineering Sciences, 2016,48(4):107-114.
Wang Weixing, 白明辉. Flotation image segmentation by combining Fractional Differential, improved Level set and Watershed[J]. Advanced Engineering Sciences, 2016,48(4):107-114.DOI:
Abstract:In order to solve the problem of flotation bubbles that the information is weak in bubble edges
which causes image segmentation hard
the new algorithm combining the Fractional Differential
improved level set and Watershed was proposed. The algorithm includes three steps: Image enhancement: the Fractional differential order is automatically determined on image texture information by using fractal analysis
and the improved adaptive fractional differential algorithm is used to enhance bubble edges; Bubble white spot extraction: the traditional Level set algorithm is improved
and it is applied for extracting white spots of bubbles; Image segmentation: the internal and external markers of bubbles are utilized to correct the gradient images
and finally the marked Watershed segmentation algorithm is used to delineate bubbles. For a number of Lead Zink ore froth images with different bubble sizes
we compared several traditional image segmentation algorithms with the new algorithm
the experimental result shows the proposed algorithm can improve the image segmentation accuracy and is effective in reducing the over-segmentation problem. The proposed algorithm is effective in segmenting flotation bubbles.