Your search keyword '"Chen, Qiaosong"' showing total 10 results

1. Multi-level feature fusion network combining attention mechanisms for polyp segmentation

Author

Liu, Junzhuo, Chen, Qiaosong, Zhang, Ye, Wang, Zhixiang, Xin, Deng, and Wang, Jin

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence

Abstract

Clinically, automated polyp segmentation techniques have the potential to significantly improve the efficiency and accuracy of medical diagnosis, thereby reducing the risk of colorectal cancer in patients. Unfortunately, existing methods suffer from two significant weaknesses that can impact the accuracy of segmentation. Firstly, features extracted by encoders are not adequately filtered and utilized. Secondly, semantic conflicts and information redundancy caused by feature fusion are not attended to. To overcome these limitations, we propose a novel approach for polyp segmentation, named MLFF-Net, which leverages multi-level feature fusion and attention mechanisms. Specifically, MLFF-Net comprises three modules: Multi-scale Attention Module (MAM), High-level Feature Enhancement Module (HFEM), and Global Attention Module (GAM). Among these, MAM is used to extract multi-scale information and polyp details from the shallow output of the encoder. In HFEM, the deep features of the encoders complement each other by aggregation. Meanwhile, the attention mechanism redistributes the weight of the aggregated features, weakening the conflicting redundant parts and highlighting the information useful to the task. GAM combines features from the encoder and decoder features, as well as computes global dependencies to prevent receptive field locality. Experimental results on five public datasets show that the proposed method not only can segment multiple types of polyps but also has advantages over current state-of-the-art methods in both accuracy and generalization ability.

Published

2023

2. Enhanced wear prediction of tunnel boring machine disc cutters for accurate remaining useful life estimation using a hybrid model

Author

Zhou, Xinghai, Zhang, Yakun, Gong, Guofang, Yang, Huayong, Chen, Qiaosong, Chen, Yuxi, and Su, Zhixue

Published

2024

3. Simulation Analysis of Factors Influencing Vehicle Passing Performance through Large-slope Metro Turnouts

Author

CHEN Qiaosong, RUAN Ying, WANG Mingmin, MA Qiantao, HOU Mingyang, CHEN Rong, and XU Jingmang

Subjects

metro, large-slope turnout, vehicle passing performance, operating speed, friction coefficient, Transportation engineering, TA1001-1280

Abstract

Objective In the actual metro construction, it is often necessary to lay turnouts on large-slope sections due to planning and construction constraints, land conservation or topographical limitations. However, it is found through practical application that the large-slope turnout structure leads to poor train stability and ride comfort during operation, thus an investigation on the factors influencing vehicle passing performance through large-slope metro turnouts is required. Method Based on multi-body dynamics theory, using simulation analysis software and taking the No.9 turnout installed on a 30‰ slope as research object, a coupled vehicle-turnout multi-body dynamics model is established. The dynamics performance indicators (including wheel-rail interaction, safety indicators, and stability indicators) of single vehicle passing through large-slope turnout at different operating speeds and friction coefficients are compared，aiming to analyze the impact of various factors on the vehicle passing performance through large-slope metro turnouts. Result & Conclusion It is revealed through simulation research that the impact of operating speed on wheel-rail interaction, stability indicators, and safety indicators is independent of the slope direction during vehicle passing turnouts. When a vehicle passes through turnouts on uphill and downhill slopes, the influence trends of operating speed on the dynamics indicators are consistent, with a more significant impact when going downhill; the friction coefficient greatly affects the wheel-rail dynamic interaction and the vehicle lateral acceleration. As the friction coefficient increases, the wheel-rail interaction force decreases, the carbody vertical acceleration shows no significant change, and the lateral acceleration increases significantly, with a more pronounced effect when going downhill. Therefore, certain strengthening and protective measures should be taken when vehicle going downhill.

Published

2024

4. Multi-level feature fusion network combining attention mechanisms for polyp segmentation

Author

Liu, Junzhuo, Chen, Qiaosong, Zhang, Ye, Wang, Zhixiang, Deng, Xin, and Wang, Jin

Published

2024

5. Multi-level feature fusion network combining attention mechanisms for polyp segmentation

Author

Liu, Junzhuo, primary, Chen, Qiaosong, additional, Zhang, Ye, additional, Wang, Zhixiang, additional, Deng, Xin, additional, and Wang, Jin, additional

Published

2023

6. CycleGAN Clinical Image Augmentation Based on Mask Self-Attention Mechanism

Author

Liu, Junzhuo, primary, Wang, Zhixiang, additional, Zhang, Ye, additional, Traverso, Alberto, additional, Dekker, Andre, additional, Zhang, Zhen, additional, and Chen, Qiaosong, additional

Published

2022

7. The study of different attention states under different background music based on Event-Related potential analysis

Author

Tang Yun, Deng Xin, Zhang Chenglin, Chen Qiaosong, Wang Jin, and Yang Qingyun

Subjects

Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991

Abstract

This paper conducts the research on the attention sates based on ERP analysis when the subjects are under the quiet, flute and zither background music. The amplitude and latency of P300 are analyzed. The results show that there are greater P300 amplitudes and smaller P300 latencies of CZ, PZ, OZ and CP3 in music background than those in quiet background. The PCA and ICA achieve to select the effective data components and the head model is reconstructed. The active degree of brain areas are analyzed by using the source location methods. The result shows that the brain’s excitement is very obvious under the Bach's flute background. The study also indicates that some background music might help to improve the attention.

Published

2017

8. Modeling the thermotaxis behavior ofC.elegansbased on the artificial neural network

Author

Li, Mingxu, primary, Deng, Xin, additional, Wang, Jin, additional, Chen, Qiaosong, additional, and Tang, Yun, additional

Published

2016

9. Modeling the thermotaxis behavior of C.elegans based on the artificial neural network.

Author

Li, Mingxu, Deng, Xin, Wang, Jin, Chen, Qiaosong, and Tang, Yun

Published

2016

10. Modeling the thermotaxis behavior of C.elegansbased on the artificial neural network

Author

Li, Mingxu, Deng, Xin, Wang, Jin, Chen, Qiaosong, and Tang, Yun

Abstract

ASBTRACTThis research aims at modeling the thermotaxis behavior of C.eleganswhich is a kind of nematode with full clarified neuronal connections. Firstly, this work establishes the motion model which can perform the undulatory locomotion with turning behavior. Secondly, the thermotaxis behavior is modeled by nonlinear functions and the nonlinear functions are learned by artificial neural network. Once the artificial neural networks have been well trained, they can perform the desired thermotaxis behavior. Last, several testing simulations are carried out to verify the effectiveness of the model for thermotaxis behavior. This work also analyzes the different performances of the model under different environments. The testing results reveal the essence of the thermotaxis of C.elegansto some extent, and theoretically support the research on the navigation of the crawling robots.

Published

2016