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    Riesz Fractional Derivative-Based Approach for Texture Enhancement

    New search for: Kaur, Kanwarpreet
    New search for: Kumari, Meet
    New search for: Tuteja, Shikha

    Textural enhancement is an indispensable area that needs to be addressed in the case of applications of image processing. Despite the existence of various enhancement approaches, it is quite difficult to preserve the informational details while enhancing the image features. This creates the necessity for the development of a fractional derivative approach for enhancing the image texture. This paper develops a unique mask by utilizing the Riesz fractional derivative (RFD) to enhance fine details in images. Simulations are conducted on the test images from standard datasets and fundus images to establish the efficacy of presented RFD method by metrics such as average gradient (AG) and information entropy (IE). The simulated results show the proficiency of the presented RFD approach as the improvement of 0.0649 and 6.3327 is achieved for IE and AG for the standard images against the existing methods.

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    Riesz Fractional Derivative-Based Approach for Texture Enhancement

    New search for: Kaur, Kanwarpreet
    New search for: Kumari, Meet
    New search for: Tuteja, Shikha

    Textural enhancement is an indispensable area that needs to be addressed in the case of applications of image processing. Despite the existence of various enhancement approaches, it is quite difficult to preserve the informational details while enhancing the image features. This creates the necessity for the development of a fractional derivative approach for enhancing the image texture. This paper develops a unique mask by utilizing the Riesz fractional derivative (RFD) to enhance fine details in images. Simulations are conducted on the test images from standard datasets and fundus images to establish the efficacy of presented RFD method by metrics such as average gradient (AG) and information entropy (IE). The simulated results show the proficiency of the presented RFD approach as the improvement of 0.0649 and 6.3327 is achieved for IE and AG for the standard images against the existing methods.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Riesz Fractional Derivative-Based Approach for Texture Enhancement

    New search for: Kaur, Kanwarpreet
    New search for: Kumari, Meet
    New search for: Tuteja, Shikha

    Textural enhancement is an indispensable area that needs to be addressed in the case of applications of image processing. Despite the existence of various enhancement approaches, it is quite difficult to preserve the informational details while enhancing the image features. This creates the necessity for the development of a fractional derivative approach for enhancing the image texture. This paper develops a unique mask by utilizing the Riesz fractional derivative (RFD) to enhance fine details in images. Simulations are conducted on the test images from standard datasets and fundus images to establish the efficacy of presented RFD method by metrics such as average gradient (AG) and information entropy (IE). The simulated results show the proficiency of the presented RFD approach as the improvement of 0.0649 and 6.3327 is achieved for IE and AG for the standard images against the existing methods.

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    Title:

    Riesz Fractional Derivative-Based Approach for Texture Enhancement

    Additional title:

    J. Inst. Eng. India Ser. B

    Contributors:

    Kaur, Kanwarpreet (author) / Kumari, Meet (author) / Tuteja, Shikha (author)

    Published in:

    Journal of The Institution of Engineers (India): Series B ; 105 ; 1339-1345

    Publication date:

    2024-10-01

    Size:

    7 pages

    ISSN:

    2250-2114 , 2250-2106

    DOI:

    https://doi.org/10.1007/s40031-024-01042-x

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Fractional calculus , Riesz fractional derivative , Image sharpening , Information entropy , Average gradient Engineering , Communications Engineering, Networks

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