Directionlets using in-phase lifting for image representation
Directionlets allow a construction of perfect reconstruction and critically sampled multidirectional anisotropic basis, yet retaining the separable filtering of standard wavelet transform. However, due to the spatially varying filtering and downsampling direction, it is forced to apply spatial segme...
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sg-ntu-dr.10356-800502020-03-07T13:57:24Z Directionlets using in-phase lifting for image representation Makur, Anamitra Jayachandra, Dakala School of Electrical and Electronic Engineering DRNTU::Engineering::Computer science and engineering::Computing methodologies::Image processing and computer vision Directionlets allow a construction of perfect reconstruction and critically sampled multidirectional anisotropic basis, yet retaining the separable filtering of standard wavelet transform. However, due to the spatially varying filtering and downsampling direction, it is forced to apply spatial segmentation and process each segment independently. Because of this independent processing of the image segments, directionlets suffer from the following two major limitations when applied to, say, image coding. First, failure to exploit the correlation across block boundaries degrades the coding performance and also induces blocking artifacts, thus making it mandatory to use de-blocking filter at low bit rates. Second, spatial scalability, i.e., minimum segment size or the number of levels of the transform, is limited due to independent processing of segments. We show that, with simple modifications in the block boundaries, we can overcome these limitations by, what we call, in-phase lifting implementation of directionlets. In the context of directionlets using in-phase lifting, we identify different possible groups of downsampling matrices that would allow the construction of a multilevel transform without forcing independent processing of segments both with and without any modifications in the segment boundary. Experimental results in image coding show objective and subjective improvements when compared with the directionlets applied independently on each image segment. As an application, using both the in-phase lifting implementation of directionlets and the adaptive directional lifting, we have constructed an adaptive directional wavelet transform, which has shown improved image coding performance over these adaptive directional wavelet transforms. Accepted version 2014-05-20T02:10:22Z 2019-12-06T13:39:31Z 2014-05-20T02:10:22Z 2019-12-06T13:39:31Z 2013 2013 Journal Article Jayachandra, D., & Makur, A. (2014). Directionlets Using In-phase Lifting For Image Representation. IEEE Transactions on Image Processing, 23(1), 240-249. 1057-7149 https://hdl.handle.net/10356/80050 http://hdl.handle.net/10220/19377 10.1109/TIP.2013.2288912 en IEEE transactions on image processing © 2013 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. The published version is available at: DOI: http://dx.doi.org/10.1109/TIP.2013.2288912. 10 p. application/pdf |
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DRNTU::Engineering::Computer science and engineering::Computing methodologies::Image processing and computer vision Makur, Anamitra Jayachandra, Dakala Directionlets using in-phase lifting for image representation |
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Directionlets allow a construction of perfect reconstruction and critically sampled multidirectional anisotropic basis, yet retaining the separable filtering of standard wavelet transform. However, due to the spatially varying filtering and downsampling direction, it is forced to apply spatial segmentation and process each segment independently. Because of this independent processing of the image segments, directionlets suffer from the following two major limitations when applied to, say, image coding. First, failure to exploit the correlation across block boundaries degrades the coding performance and also induces blocking artifacts, thus making it mandatory to use de-blocking filter at low bit rates. Second, spatial scalability, i.e., minimum segment size or the number of levels of the transform, is limited due to independent processing of segments. We show that, with simple modifications in the block boundaries, we can overcome these limitations by, what we call, in-phase lifting implementation of directionlets. In the context of directionlets using in-phase lifting, we identify different possible groups of downsampling matrices that would allow the construction of a multilevel transform without forcing independent processing of segments both with and without any modifications in the segment boundary. Experimental results in image coding show objective and subjective improvements when compared with the directionlets applied independently on each image segment. As an application, using both the in-phase lifting implementation of directionlets and the adaptive directional lifting, we have constructed an adaptive directional wavelet transform, which has shown improved image coding performance over these adaptive directional wavelet transforms. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Makur, Anamitra Jayachandra, Dakala |
| format |
Article |
| author |
Makur, Anamitra Jayachandra, Dakala |
| author_sort |
Makur, Anamitra |
| title |
Directionlets using in-phase lifting for image representation |
| title_short |
Directionlets using in-phase lifting for image representation |
| title_full |
Directionlets using in-phase lifting for image representation |
| title_fullStr |
Directionlets using in-phase lifting for image representation |
| title_full_unstemmed |
Directionlets using in-phase lifting for image representation |
| title_sort |
directionlets using in-phase lifting for image representation |
| publishDate |
2014 |
| url |
https://hdl.handle.net/10356/80050 http://hdl.handle.net/10220/19377 |
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1681041699968647168 |