Implementation of Partial Derivatives for Image Enhancement

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Shaik Khasim; V.Rama Krishna

Implementation of Partial Derivatives for Image Enhancement

Authors: Shaik Khasim, V.Rama Krishna

Unique Paper ID: 147048
PageNo: 249-253

Keywords: RGB Color image; Noise analysis; Filter Process; Blurriness and Sharpening; Partial Differential Equation (PDE).

Abstract:
Digital images are subject to a wide variety of distortions during acquisition, processing, compression, storage, transmission and reproduction, any of which may result in a degradation of visual quality for applications in which images are ultimately to be viewed by human beings, the only â€œcorrectâ€ method of quantifying visual image quality is through subjective evaluation. In this project the noisy and blurred images are de noised and sharpened and enhancement of the image is achieved. Here PDE based bilateral filter has been used for speckle noise removal. This proposed model relates different color components using bilateral filter and PDE'S higher than fourth order. By means of nonlinear combination of nearby image values bilateral filtering smoothers images and where images are preserved. Based on geometric closeness and photometric similarity blue levels or colors are combined and near values are preferred than distant values in both domain and range. Here noise is added to the blur component to get more quality. The proposed model is more efficient and the denoising and deblurring of color images can be done with proposed method without creating false colours, than the other filters and previous works. The performance of the presented algorithm can be analyzed based on peak signal to noise ratio and mean square error values.

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Copyright & License

Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{147048,
        author = {Shaik Khasim and V.Rama Krishna},
        title = {Implementation of Partial Derivatives for Image Enhancement},
        journal = {International Journal of Innovative Research in Technology},
        year = {},
        volume = {5},
        number = {3},
        pages = {249-253},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=147048},
        abstract = {Digital images are subject to a wide variety of distortions during acquisition, processing, compression, storage, transmission and reproduction, any of which may result in a degradation of visual quality for applications in which images are ultimately to be viewed by human beings, the only â€œcorrectâ€ method of quantifying visual image quality is through subjective evaluation.
                  In this project the noisy and blurred images are de noised and sharpened and enhancement of the image is achieved. Here PDE based bilateral filter has been used for speckle noise removal. This proposed model relates different color components using bilateral filter and PDE'S higher than fourth order.
By means of nonlinear combination of nearby image values bilateral filtering smoothers images and where images are preserved. Based on geometric closeness and photometric similarity blue levels or colors are combined and near values are preferred than distant values in both domain and range. Here noise is added to the blur component to get more quality.
The proposed model is more efficient and the denoising and deblurring of color images can be done with proposed method without creating false colours, than the other filters and previous works. The performance of the presented algorithm can be analyzed based on peak signal to noise ratio and mean square error values.
},
        keywords = {RGB Color image; Noise analysis; Filter Process; Blurriness and Sharpening; Partial Differential Equation (PDE).

},
        month = {},
        }

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Cite This Article

Khasim, S., & Krishna, V. (). Implementation of Partial Derivatives for Image Enhancement. International Journal of Innovative Research in Technology (IJIRT), 5(3), 249–253.

03 Feb, 2018

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