Robust 3D rotation invariant local binary pattern for volumetric texture classification
Robust 3D rotation invariant local binary pattern for volumetric texture classification
3D local binary pattern (LBP) shows significant performance in many domains such as solid textures analysis, face recognition and tumor detection. In recent years, rotation invariant 3D LBP texture descriptors have received increasing attention and several variants have been proposed. However, they are sensitive to the noise present in the image. In this paper, we propose an efficient rotation invariant texture descriptor known as robust extended 3D LBP (RELBP) for volumetric texture classification. Unlike the current 3D LBP framework, our descriptor uses the information of neighboring voxels to reduce noise. First, the 3D weighted average filter is employed to process each voxel in the image, in which the center voxel is replaced by the average local gray level based on weights. Besides, equidistant points on a sphere are sampled to construct a set of rotation invariant features. Our experiments demonstrate that the RELBP proposed here shows superior classification performance in texture classification tasks and our method is highly robust to image noise on benchmark datasets.
Lu, Shengyu
e4f0deeb-f1d2-4938-bb3a-c2fa80b1f4fe
Mahmoodi, Sasan
91ca8da4-95dc-4c1e-ac0e-f2c08d6ac7cf
Niranjan, Mahesan
5cbaeea8-7288-4b55-a89c-c43d212ddd4f
25 May 2022
Lu, Shengyu
e4f0deeb-f1d2-4938-bb3a-c2fa80b1f4fe
Mahmoodi, Sasan
91ca8da4-95dc-4c1e-ac0e-f2c08d6ac7cf
Niranjan, Mahesan
5cbaeea8-7288-4b55-a89c-c43d212ddd4f
Lu, Shengyu, Mahmoodi, Sasan and Niranjan, Mahesan
(2022)
Robust 3D rotation invariant local binary pattern for volumetric texture classification.
26th International Conference on Pattern Recognition, Quebec, Montreal, Canada.
21 - 25 Aug 2022.
7 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
3D local binary pattern (LBP) shows significant performance in many domains such as solid textures analysis, face recognition and tumor detection. In recent years, rotation invariant 3D LBP texture descriptors have received increasing attention and several variants have been proposed. However, they are sensitive to the noise present in the image. In this paper, we propose an efficient rotation invariant texture descriptor known as robust extended 3D LBP (RELBP) for volumetric texture classification. Unlike the current 3D LBP framework, our descriptor uses the information of neighboring voxels to reduce noise. First, the 3D weighted average filter is employed to process each voxel in the image, in which the center voxel is replaced by the average local gray level based on weights. Besides, equidistant points on a sphere are sampled to construct a set of rotation invariant features. Our experiments demonstrate that the RELBP proposed here shows superior classification performance in texture classification tasks and our method is highly robust to image noise on benchmark datasets.
Text
LBP_ICPR2022
- Accepted Manuscript
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Published date: 25 May 2022
Venue - Dates:
26th International Conference on Pattern Recognition, Quebec, Montreal, Canada, 2022-08-21 - 2022-08-25
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Local EPrints ID: 457987
URI: http://eprints.soton.ac.uk/id/eprint/457987
PURE UUID: bbc7ecb6-9e28-4fc6-8edf-8c4004dfbbb7
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Date deposited: 23 Jun 2022 18:17
Last modified: 17 Mar 2024 07:23
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Contributors
Author:
Shengyu Lu
Author:
Sasan Mahmoodi
Author:
Mahesan Niranjan
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