A New Wavelet Completed Local Ternary Count (WCLTC) for Image Classification
Authors: Rassem, T.H., Alkareem, F.A., Mohammed, M.F., Makbol, N.M. and Sallam, A.
Journal: International Conference on Intelligent Technology, System and Service for Internet of Everything, ITSS-IoE 2021
ISBN: 9781665433051
DOI: 10.1109/ITSS-IoE53029.2021.9615301
Abstract:To overcome noise sensitivity and increase the discriminative quality of the Local Binary Pattern, a Completed Local Ternary Count (CLTC) was developed by combining the Local Ternary Pattern (LTP) with the Completed Local Binary Count (CLBC) (LBP). Furthermore, by integrating the proposed CLTC with the Redundant Discrete Wavelet Transform (RDWT) to construct a Wavelet Completed Local Ternary Count, the proposed CLTC's discriminative property is improved (WCLTC). As a result, more accurate local texture feature capture inside the RDWT domain is possible. The proposed WCLTC is utilised to perform texture and medical image classification tasks. The WCLTC performance is evaluated using two benchmark texture datasets, CUReT and Outex, as well as three medical picture databases, 2D Hela, VIRUS Texture, and BR datasets. With several of these datasets, the experimental findings demonstrate a remarkable classification accuracy. In several cases, the WCLTC performance outperformed the prior descriptions. With the 2D Hela, CUReT, and Virus datasets, the WCLTC achieves the highest classification accuracy of 96.91%, 97.04 percent, and 72.89%, respectively.
https://eprints.bournemouth.ac.uk/37437/
Source: Scopus
A New Wavelet Completed Local Ternary Count (WCLTC) for Image Classification
Authors: Rassem, T.H., Alkareem, F.A., Mohammed, M.F., Makbol, N.M. and Sallam, A.
Conference: ITSS-IoE 2021: International Conference on Intelligent Technology, System and Service for Internet of Everything
ISBN: 9781665433051
Abstract:To overcome noise sensitivity and increase the discriminative quality of the Local Binary Pattern, a Completed Local Ternary Count (CLTC) was developed by combining the Local Ternary Pattern (LTP) with the Completed Local Binary Count (CLBC) (LBP). Furthermore, by integrating the proposed CLTC with the Redundant Discrete Wavelet Transform (RDWT) to construct a Wavelet Completed Local Ternary Count, the proposed CLTC's discriminative property is improved (WCLTC). As a result, more accurate local texture feature capture inside the RDWT domain is possible. The proposed WCLTC is utilised to perform texture and medical image classification tasks. The WCLTC performance is evaluated using two benchmark texture datasets, CUReT and Outex, as well as three medical picture databases, 2D Hela, VIRUS Texture, and BR datasets. With several of these datasets, the experimental findings demonstrate a remarkable classification accuracy. In several cases, the WCLTC performance outperformed the prior descriptions. With the 2D Hela, CUReT, and Virus datasets, the WCLTC achieves the highest classification accuracy of 96.91%, 97.04 percent, and 72.89%, respectively.
https://eprints.bournemouth.ac.uk/37437/
Source: BURO EPrints