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Your search keyword '"Qiu, Zhanhong"' showing total 32 results
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32 results on '"Qiu, Zhanhong"'

1. Self-training with dual uncertainty for semi-supervised medical image segmentation

Author

Qiu, Zhanhong, Gan, Haitao, Shi, Ming, Huang, Zhongwei, and Yang, Zhi

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

In the field of semi-supervised medical image segmentation, the shortage of labeled data is the fundamental problem. How to effectively learn image features from unlabeled images to improve segmentation accuracy is the main research direction in this field. Traditional self-training methods can partially solve the problem of insufficient labeled data by generating pseudo labels for iterative training. However, noise generated due to the model's uncertainty during training directly affects the segmentation results. Therefore, we added sample-level and pixel-level uncertainty to stabilize the training process based on the self-training framework. Specifically, we saved several moments of the model during pre-training, and used the difference between their predictions on unlabeled samples as the sample-level uncertainty estimate for that sample. Then, we gradually add unlabeled samples from easy to hard during training. At the same time, we added a decoder with different upsampling methods to the segmentation network and used the difference between the outputs of the two decoders as pixel-level uncertainty. In short, we selectively retrained unlabeled samples and assigned pixel-level uncertainty to pseudo labels to optimize the self-training process. We compared the segmentation results of our model with five semi-supervised approaches on the public 2017 ACDC dataset and 2018 Prostate dataset. Our proposed method achieves better segmentation performance on both datasets under the same settings, demonstrating its effectiveness, robustness, and potential transferability to other medical image segmentation tasks. Keywords: Medical image segmentation, semi-supervised learning, self-training, uncertainty estimation

Published
2023

31. Investigation on tribological behaviour of diesel engine exhaust valve dry sliding against valve seat.

Author

Zhang, Shaoyang, Jin, Xuefeng, Zhong, Wenwu, Xu, Aijiao, Zhou, Xiaoli, Ma, Li, and Qiu, Zhanhong

Abstract

A high-chromium alloy with 2Cr32Si2MnMo2 available for diesel engine valve seats was fabricated by centrifugal casting to improve valve seat quality. The friction and wear performances of the valve seat dry sliding against an exhaust valve were measured using a SRV testing machine. The test procedures include temperature and load sensitivities and wear. The test temperatures ranged from 100 ℃ to 280 ℃ and loads from 50 to 125 N. The friction and wear of the valve seat were found to decrease first and then increase with the increment of temperature or load. Scanning electron microscopy and energy dispersive X-ray spectroscopy analyses revealed the tribofilms contained more friction-increasing Cr2O3 and the wear mechanism was a complicated combination of two-body abrasion, three-body abrasion and oxidation. The strong adhesion between the valve and its seat arrested the relative sliding, but with loads going up to 150 N. In most cases, the valve had unexpectedly higher wear resistance than that of its seat over the temperature range, which is ascribed to adhesion to the tribofilms. [ABSTRACT FROM PUBLISHER]

Published
2013
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32. Dual uncertainty-guided multi-model pseudo-label learning for semi-supervised medical image segmentation.

Author

Qiu Z, Gan W, Yang Z, Zhou R, and Gan H

Subjects
Uncertainty, Research Design, Image Processing, Computer-Assisted
Abstract

Semi-supervised medical image segmentation is currently a highly researched area. Pseudo-label learning is a traditional semi-supervised learning method aimed at acquiring additional knowledge by generating pseudo-labels for unlabeled data. However, this method relies on the quality of pseudo-labels and can lead to an unstable training process due to differences between samples. Additionally, directly generating pseudo-labels from the model itself accelerates noise accumulation, resulting in low-confidence pseudo-labels. To address these issues, we proposed a dual uncertainty-guided multi-model pseudo-label learning framework (DUMM) for semi-supervised medical image segmentation. The framework consisted of two main parts: The first part is a sample selection module based on sample-level uncertainty (SUS), intended to achieve a more stable and smooth training process. The second part is a multi-model pseudo-label generation module based on pixel-level uncertainty (PUM), intended to obtain high-quality pseudo-labels. We conducted a series of experiments on two public medical datasets, ACDC2017 and ISIC2018. Compared to the baseline, we improved the Dice scores by 6.5% and 4.0% over the two datasets, respectively. Furthermore, our results showed a clear advantage over the comparative methods. This validates the feasibility and applicability of our approach.

Published
2024
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