Your search keyword '"Xuebin Xu"' showing total 5 results

1. A Tuberculosis Detection Method Using Attention and Sparse R-CNN.

Author

Xuebin Xu, Jiada Zhang, Xiaorui Cheng, Longbin Lu, Yuqing Zhao, Zongyu Xu, and Zhuangzhuang Gu

Subjects

OBJECT recognition (Computer vision), CLASSIFICATION algorithms, X-ray detection, X-ray imaging, LUNG diseases, TUBERCULOSIS, CHEST X rays

Abstract

To achieve accurate detection of tuberculosis (TB) areas in chest radiographs, we design a chest X-ray TB area detection algorithm. The algorithm consists of two stages: the chest Xray TB classification network (CXTCNet) and the chest X-ray TB area detection network (CXTDNet). CXTCNet is used to judge the presence or absence of TB areas in chest X-ray images, thereby excluding the influence of other lung diseases on the detection of TB areas. It can reduce false positives in the detection network and improve the accuracy of detection results. In CXTCNet, we propose a channel attention mechanism (CAM) module and combine it with DenseNet. This module enables the network to learn more spatial and channel features information about chest X-ray images, thereby improving network performance. CXTDNet is a design based on a sparse object detection algorithm (Sparse R-CNN). A group of fixed learnable proposal boxes and learnable proposal features are using for classification and location. The predictions of the algorithm are output directly without non-maximal suppression post-processing. Furthermore, we use CLAHE to reduce image noise and improve image quality for data preprocessing. Experiments on dataset TBX11K show that the accuracy of the proposed CXTCNet is up to 99.10%, which is better than most current TB classification algorithms. Finally, our proposed chest X-ray TB detection algorithm could achieve AP of 45.35% and AP50 of 74.20%. We also establish a chest X-ray TB dataset with 304 sheets. And experiments on this dataset showed that the accuracy of the diagnosis was comparable to that of radiologists. We hope that our proposed algorithm and established dataset will advance the field of TB detection. [ABSTRACT FROM AUTHOR]

Published

2022

2. Adaptive low-resolution palmprint image recognition based on channel attention mechanism and modified deep residual network.

Author

Xuebin Xu, Kan Meng, Xiaomin Xing, and Chen Chen

Subjects

PALMPRINT recognition, IMAGE recognition (Computer vision), MOBILE computing, MACHINE learning

Abstract

Palmprint recognition has drawn increasingly attentions in the past decade due to its uniqueness and reliability. Traditional palmprint recognition methods usually use highresolution images as the identification basis so that they can achieve relatively high precision. However, high-resolution images mean more computation cost in the recognition process, which usually cannot be guaranteed in mobile computing. Therefore, this paper proposes an improved low-resolution palmprint image recognition method based on residual networks. The main contributions include: 1) We introduce a channel attention mechanism to refactor the extracted feature maps, which can pay more attention to the informative feature maps and suppress the useless ones. 2) The ResStage group structure proposed by us divides the original residual block into three stages, and we stabilize the signal characteristics before each stage by means of BN normalization operation to enhance the feature channel. Comparison experiments are conducted on a public dataset provided by the Hong Kong Polytechnic University. Experimental results show that the proposed method achieve a rank-1 accuracy of 98.17% when tested on low-resolution images with the size of 12dpi, which outperforms all the compared methods obviously. [ABSTRACT FROM AUTHOR]

Published

2022

3. Rapid Emergence of Florfenicol-Resistant Invasive Non-Typhoidal Salmonella in China: A Potential Threat to Public Health.

Author

Zeqiang Zhan, Xuebin Xu, Haiyan Shen, Yuan Gao, Fanliang Zeng, Xiaoyun Qu, Hongxia Zhang, Ming Liao, and Jianmin Zhang

Published

2019

4. Optimal Scheme of Retinal Image Enhancement using Curvelet Transform and Quantum Genetic Algorithm.

Author

Zhixiao Wang, Xuebin Xu, Wenyao Yan, Wei Wei, Junhuai Li, and Deyun Zhang

Subjects

RETINAL imaging, OPTIMAL control theory, IMAGE enhancement (Imaging systems), CURVELET transforms, GENETIC algorithms

Abstract

A new optimal scheme based on curvelet transform is proposed for retinal image enhancement (RIE) using real-coded quantum genetic algorithm. Curvelet transform has better performance in representing edges than classical wavelet transform for its anisotropy and directional decomposition capabilities. For more precise reconstruction and better visualization, curvelet coefficients in corresponding subbands are modified by using a nonlinear enhancement mapping function. An automatic method is presented for selecting optimal parameter settings of the nonlinear mapping function via quantum genetic search strategy. The performance measures used in this paper provide some quantitative comparison among different RIE methods. The proposed method is tested on the DRIVE and STARE retinal databases and compared with some popular image enhancement methods. The experimental results demonstrate that proposed method can provide superior enhanced retinal image in terms of several image quantitative evaluation indexes. [ABSTRACT FROM AUTHOR]

Published

2013

5. Heterometallic Cubanes: Syntheses, Structures, and Magnetic Properties of Lanthanide(III)--Nickel(II) Architectures.

Author

Yajie Gao, Lang Zhao, Xuebin Xu, Gong-Feng Xu, Yun-Nan Guo, Jinkui Tang, and Zhiliang Liu

Published

2011