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Autori principali: Shubha, Syed Emad Uddin, Islam, Mir Muzahedul, Sadi, Tanvir Ahahmed, Miraz, Md. Hasibul Hasan, Mahdy, M. R. C.
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2404.06889
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author Shubha, Syed Emad Uddin
Islam, Mir Muzahedul
Sadi, Tanvir Ahahmed
Miraz, Md. Hasibul Hasan
Mahdy, M. R. C.
author_facet Shubha, Syed Emad Uddin
Islam, Mir Muzahedul
Sadi, Tanvir Ahahmed
Miraz, Md. Hasibul Hasan
Mahdy, M. R. C.
contents Quantum image processing is a research field that explores the use of quantum computing and algorithms for image processing tasks such as image encoding and edge detection. Although classical edge detection algorithms perform reasonably well and are quite efficient, they become outright slower when it comes to large datasets with high-resolution images. Quantum computing promises to deliver a significant performance boost and breakthroughs in various sectors. Quantum Hadamard Edge Detection (QHED) algorithm, for example, works at constant time complexity, and thus detects edges much faster than any classical algorithm. However, the original QHED algorithm is designed for Quantum Probability Image Encoding (QPIE) and mainly works for binary images. This paper presents a novel protocol by combining the Flexible Representation of Quantum Images (FRQI) encoding and a modified QHED algorithm. An improved edge outline method has been proposed in this work resulting in a better object outline output and more accurate edge detection than the traditional QHED algorithm.
format Preprint
id arxiv_https___arxiv_org_abs_2404_06889
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Edge Detection Quantumized: A Novel Quantum Algorithm For Image Processing
Shubha, Syed Emad Uddin
Islam, Mir Muzahedul
Sadi, Tanvir Ahahmed
Miraz, Md. Hasibul Hasan
Mahdy, M. R. C.
Quantum Physics
Numerical Analysis
Image and Video Processing
Quantum image processing is a research field that explores the use of quantum computing and algorithms for image processing tasks such as image encoding and edge detection. Although classical edge detection algorithms perform reasonably well and are quite efficient, they become outright slower when it comes to large datasets with high-resolution images. Quantum computing promises to deliver a significant performance boost and breakthroughs in various sectors. Quantum Hadamard Edge Detection (QHED) algorithm, for example, works at constant time complexity, and thus detects edges much faster than any classical algorithm. However, the original QHED algorithm is designed for Quantum Probability Image Encoding (QPIE) and mainly works for binary images. This paper presents a novel protocol by combining the Flexible Representation of Quantum Images (FRQI) encoding and a modified QHED algorithm. An improved edge outline method has been proposed in this work resulting in a better object outline output and more accurate edge detection than the traditional QHED algorithm.
title Edge Detection Quantumized: A Novel Quantum Algorithm For Image Processing
topic Quantum Physics
Numerical Analysis
Image and Video Processing
url https://arxiv.org/abs/2404.06889