Image sub-division and quadruple clipped adaptive histogram equalization (ISQCAHE) for low exposure image enhancement

In this paper, a novel image sub-division and quadruple clipped adaptive histogram equalization (ISQCAHE) technique is proposed for the enhancement of low exposure images. The proposed method involves, computation of the histogram which includes a new approach of image sub-division, enhancement cont...

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Published in	Multidimensional systems and signal processing Vol. 34; no. 1; pp. 25 - 45
Main Authors	Acharya, Upendra Kumar, Kumar, Sandeep
Format	Journal Article
Language	English
Published	New York Springer US 01.03.2023 Springer Nature B.V
Subjects	Artificial Intelligence Brightness Circuits and Systems Electrical Engineering Engineering Entropy Equalization Exposure Histograms Image enhancement Image quality Probability density functions Quality assessment Signal,Image and Speech Processing Similarity Histogram sub-division Histogram clipping Low exposure images Image enhancement Histogram equalization (HE)
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Abstract	In this paper, a novel image sub-division and quadruple clipped adaptive histogram equalization (ISQCAHE) technique is proposed for the enhancement of low exposure images. The proposed method involves, computation of the histogram which includes a new approach of image sub-division, enhancement controlling mechanism, modification of probability density function (PDF) and histogram equalization (HE). The original histogram is segmented into sub-histograms based on exposure threshold and mean, to preserve the brightness and entropy. Then, individual sub-histogram is clipped separately to control the enhancement rate. For enhancing the visual quality, HE is applied to individual sub-histogram using the modified PDF. The experimental results show that, the proposed ISQCAHE method avoids the unpleasant artifacts effectively and provide a natural appearance to the enhanced image. It is simple, adaptive and performs superior than other techniques in terms of visual quality, absolute mean brightness error, entropy, Natural image quality evaluation, brightness preservation, structure similarity index measure and feature similarity index measure.
AbstractList	In this paper, a novel image sub-division and quadruple clipped adaptive histogram equalization (ISQCAHE) technique is proposed for the enhancement of low exposure images. The proposed method involves, computation of the histogram which includes a new approach of image sub-division, enhancement controlling mechanism, modification of probability density function (PDF) and histogram equalization (HE). The original histogram is segmented into sub-histograms based on exposure threshold and mean, to preserve the brightness and entropy. Then, individual sub-histogram is clipped separately to control the enhancement rate. For enhancing the visual quality, HE is applied to individual sub-histogram using the modified PDF. The experimental results show that, the proposed ISQCAHE method avoids the unpleasant artifacts effectively and provide a natural appearance to the enhanced image. It is simple, adaptive and performs superior than other techniques in terms of visual quality, absolute mean brightness error, entropy, Natural image quality evaluation, brightness preservation, structure similarity index measure and feature similarity index measure. In this paper, a novel image sub-division and quadruple clipped adaptive histogram equalization (ISQCAHE) technique is proposed for the enhancement of low exposure images. The proposed method involves, computation of the histogram which includes a new approach of image sub-division, enhancement controlling mechanism, modification of probability density function (PDF) and histogram equalization (HE). The original histogram is segmented into sub-histograms based on exposure threshold and mean, to preserve the brightness and entropy. Then, individual sub-histogram is clipped separately to control the enhancement rate. For enhancing the visual quality, HE is applied to individual sub-histogram using the modified PDF. The experimental results show that, the proposed ISQCAHE method avoids the unpleasant artifacts effectively and provide a natural appearance to the enhanced image. It is simple, adaptive and performs superior than other techniques in terms of visual quality, absolute mean brightness error, entropy, Natural image quality evaluation, brightness preservation, structure similarity index measure and feature similarity index measure.In this paper, a novel image sub-division and quadruple clipped adaptive histogram equalization (ISQCAHE) technique is proposed for the enhancement of low exposure images. The proposed method involves, computation of the histogram which includes a new approach of image sub-division, enhancement controlling mechanism, modification of probability density function (PDF) and histogram equalization (HE). The original histogram is segmented into sub-histograms based on exposure threshold and mean, to preserve the brightness and entropy. Then, individual sub-histogram is clipped separately to control the enhancement rate. For enhancing the visual quality, HE is applied to individual sub-histogram using the modified PDF. The experimental results show that, the proposed ISQCAHE method avoids the unpleasant artifacts effectively and provide a natural appearance to the enhanced image. It is simple, adaptive and performs superior than other techniques in terms of visual quality, absolute mean brightness error, entropy, Natural image quality evaluation, brightness preservation, structure similarity index measure and feature similarity index measure.
Author	Kumar, Sandeep Acharya, Upendra Kumar
Author_xml	– sequence: 1 givenname: Upendra Kumar surname: Acharya fullname: Acharya, Upendra Kumar organization: Department of Electronics and Communication Engineering, National Institute of Technology, Department of Electronics and Communication Engineering, Galgotias College of Engineering and Technology, Department of Electronics and Communication Engineering, KIET Group of Institutions – sequence: 2 givenname: Sandeep orcidid: 0000-0001-9922-2663 surname: Kumar fullname: Kumar, Sandeep email: sandeep@nitdelhi.ac.in organization: Department of Electronics and Communication Engineering, National Institute of Technology
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Keywords	Histogram sub-division Histogram clipping Low exposure images Image enhancement Histogram equalization (HE)
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SubjectTerms	Artificial Intelligence Brightness Circuits and Systems Electrical Engineering Engineering Entropy Equalization Exposure Histograms Image enhancement Image quality Probability density functions Quality assessment Signal,Image and Speech Processing Similarity
Title	Image sub-division and quadruple clipped adaptive histogram equalization (ISQCAHE) for low exposure image enhancement
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