Digital Image Processing

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Image Watershed Segmentation using Super Pixels Morphology


Affiliations
1 Department of Computer Science, V.R.S. College of Engineering and Technology, Arasur, Villupuram, India
2 Department of Computer Science, V.R.S. College of Engineering and Technology, Arasur, Villupuram, India
     

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Dynamic Detection and division of rocks is a vital first errand in numerous applications, for example, land examination, planetary science and mining procedures. Rocks are generally portioned utilizing an assortment of components, for example, composition, shading, shape and edges. It is less demanding to register these elements for rock super pixels as opposed to each pixel in the picture. A superpixel is a gathering of spatially lucid pixels that shape an important homogeneous area, generally fitting in with the same item. In this paper, we perform a relative investigation of a percentage of the current superpi.xel calculations on rock pictures as to their capacity to hold fast to picture limits, their pace, and their effect on rock division execution. Additionally, we propose another and exceptionally basic superpixel calculation, Super pixels Using Morphology (SUM), which permutes a watershed change way to deal with effectively produce super pixels. We demonstrate that SUM accomplishes an execution tantamount to the late superpixel calculations on the stone pictures.

Keywords

Morphology, Watershed Segmentation, Area Closing, Super Pixels, Rock Particles.
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  • Image Watershed Segmentation using Super Pixels Morphology

Abstract Views: 549  |  PDF Views: 3

Authors

K. Veeramanikandan
Department of Computer Science, V.R.S. College of Engineering and Technology, Arasur, Villupuram, India
D. Mahalakshmi
Department of Computer Science, V.R.S. College of Engineering and Technology, Arasur, Villupuram, India
P. Manjamadevi
Department of Computer Science, V.R.S. College of Engineering and Technology, Arasur, Villupuram, India

Abstract


Dynamic Detection and division of rocks is a vital first errand in numerous applications, for example, land examination, planetary science and mining procedures. Rocks are generally portioned utilizing an assortment of components, for example, composition, shading, shape and edges. It is less demanding to register these elements for rock super pixels as opposed to each pixel in the picture. A superpixel is a gathering of spatially lucid pixels that shape an important homogeneous area, generally fitting in with the same item. In this paper, we perform a relative investigation of a percentage of the current superpi.xel calculations on rock pictures as to their capacity to hold fast to picture limits, their pace, and their effect on rock division execution. Additionally, we propose another and exceptionally basic superpixel calculation, Super pixels Using Morphology (SUM), which permutes a watershed change way to deal with effectively produce super pixels. We demonstrate that SUM accomplishes an execution tantamount to the late superpixel calculations on the stone pictures.

Keywords


Morphology, Watershed Segmentation, Area Closing, Super Pixels, Rock Particles.