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Efficient Palm-Line Segmentation with U-Net Context Fusion Module

Van, T.P. and Nguyen, S.T. and Doan, L.B. and Tran, N.N. and Thanh, T.M. (2020) Efficient Palm-Line Segmentation with U-Net Context Fusion Module. In: 14th International Conference on Advanced Computing and Applications, ACOMP 2020, 25 November 2020 through 27 November 2020.

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Abstract

Many cultures around the world believe that palm reading can be used to predict the future life of a person. Palmistry uses features of the hand such as palm lines, hand shape, or fingertip position. However, the research on palm-line detection is still scarce, many of them applied traditional image processing techniques. In most real-world scenarios, images usually are not in well-conditioned, causing these methods to severely under-perform. In this paper, we propose an algorithm to extract principle palm lines from an image of a person's hand. Our method applies deep learning networks (DNNs) to improve performance. Another challenge of this problem is the lack of training data. To deal with this issue, we handcrafted a dataset from scratch. From this dataset, we compare the performance of readily available methods with ours. Furthermore, based on the UNet segmentation neural network architecture and the knowledge of attention mechanism, we propose a highly efficient architecture to detect palm-lines. We proposed the Context Fusion Module to capture the most important context feature, which aims to improve segmentation accuracy. The experimental results show that it outperforms the other methods with the highest F1 Score about 99.42% and mIoU is 0.584 for the same dataset. © 2020 IEEE.

Item Type: Conference or Workshop Item (Paper)
Divisions: Faculties > Faculty of Information Technology
Identification Number: 10.1109/ACOMP50827.2020.00011
Uncontrolled Keywords: Deep learning; Image processing; Learning systems; Network architecture; Attention mechanisms; Context features; Efficient architecture; Image processing technique; Improve performance; Learning network; Real-world scenario; Segmentation accuracy; Palmprint recognition
Additional Information: Conference code: 167321. Language of original document: English. All Open Access, Green.
URI: http://eprints.lqdtu.edu.vn/id/eprint/8873

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