利用黎曼-刘维尔分式积分算子进行全局阈值图像边缘检测

4区工程技术 Q1 Mathematics

Mathematical Problems in Engineering Pub Date : 2024-03-19 DOI:10.1155/2024/9266585

S. Gaur, A. M. Khan, D. L. Suthar, Avnish Bora

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引用次数: 0

摘要

由于图像内容完全不同，很难给出一个适用于所有图像的分数全局阈值 (FGT)。本文介绍了分数微积分在数字图像处理领域的有趣应用。在所提出的方法中，使用黎曼-刘维尔分数积分算子建立了基于分数全局阈值的边缘检测器（FGTED）。对于任何输入数字图像，FGTED 都能在最短时间内找到微边缘。结果表明，FGTED 在检测微类型边缘方面优于传统技术。基于 FGT 值的方法生成的图像熵值更高。使用结构相似性指数度量、F-分数（F-度量）、精确度和召回率、信噪比、峰值信噪比和计算时间，用表格和图像总结了各种图像的输出性能分析。FGTED 可用于在最短时间内更准确地检测极薄或微小类型的边缘，而无需培训或事先了解相关知识。

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Image Edge Detection by Global Thresholding Using Riemann–Liouville Fractional Integral Operator

It is difficult to give a fractional global threshold (FGT) that works well on all images as the image contents are totally different. This paper describes an interesting use of fractional calculus in the field of digital image processing. In the proposed method, the fractional global threshold-based edge detector (FGTED) is established using the Riemann–Liouville fractional integral operator. FGTED is used to find the microedges in minimum time for any input digital images. The results demonstrate that the FGTED outperforms conventional techniques for detecting microtype edges. The image with a higher entropy was produced by the FGT value-based approach. Tables and images are used to summarize the output performance analysis of various images using structural similarity index measure, F-score (F-measure), precision and recall, signal-to-noise ratio, peak signal-to-noise ratio, and computational time. The FGTED can be used to detect very thin or microtype edges more accurately in minimum time without training or prior knowledge.

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来源期刊

Mathematical Problems in Engineering 工程技术-工程：综合

CiteScore

4.00

自引率

0.00%

发文量

2853

审稿时长

4.2 months

期刊介绍： Mathematical Problems in Engineering is a broad-based journal which publishes articles of interest in all engineering disciplines. Mathematical Problems in Engineering publishes results of rigorous engineering research carried out using mathematical tools. Contributions containing formulations or results related to applications are also encouraged. The primary aim of Mathematical Problems in Engineering is rapid publication and dissemination of important mathematical work which has relevance to engineering. All areas of engineering are within the scope of the journal. In particular, aerospace engineering, bioengineering, chemical engineering, computer engineering, electrical engineering, industrial engineering and manufacturing systems, and mechanical engineering are of interest. Mathematical work of interest includes, but is not limited to, ordinary and partial differential equations, stochastic processes, calculus of variations, and nonlinear analysis.