Search

Your search keyword '"JIANG, YI"' showing total 681 results
Start Over Author "JIANG, YI" Publisher ieee
681 results on '"JIANG, YI"'

1. Recurrent Neural Network Enabled Continuous Motion Estimation of Lower Limb Joints From Incomplete sEMG Signals

Author

Gang Wang, Long Jin, Jiliang Zhang, Xiaoqin Duan, Jiang Yi, Mingming Zhang, and Zhongbo Sun

Subjects
Surface electromyography (sEMG), continuous motion estimation, incomplete signals, recurrent neural network, Medical technology, R855-855.5, Therapeutics. Pharmacology, RM1-950
Abstract

Decoding continuous human motion from surface electromyography (sEMG) in advance is crucial for improving the intelligence of exoskeleton robots. However, incomplete sEMG signals are prevalent on account of unstable data transmission, sensor malfunction, and electrode sheet detachment. These non-ideal factors severely compromise the accuracy of continuous motion recognition and the reliability of clinical applications. To tackle this challenge, this paper develops a multi-task parallel learning framework for continuous motion estimation with incomplete sEMG signals. Concretely, a residual network is incorporated into a recurrent neural network to integrate the information flow of hidden states and reconstruct random and consecutive missing sEMG signals. The attention mechanism is applied for redistributing the distribution of weights. A jointly optimized loss function is devised to enable training the model for simultaneously dealing with signal anomalies/absences and multi-joint continuous motion estimation. The proposed model is implemented for estimating hip, knee, and ankle joint angles of physically competent individuals and patients during diverse exercises. Experimental results indicate that the estimation root-mean-square errors with 60% missing sEMG signals steadily converges to below 5 degrees. Even with multi-channel electrode sheet shedding, our model still demonstrates cutting-edge estimation performance, errors only marginally increase 1 degree.

Published
2024
Full Text
View/download PDF

2. Adaptive and Explainable Deep Learning-Based Rapid Identification of Architectural Cracks

Author

Jiang-Yi Luo and Yu-Cheng Liu

Subjects
Crack identification, SqueezeNet network, SE attention mechanism, Grad-CAM, model interpretability, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Concrete architectural structures are widely used in urban construction, making the health diagnosis and maintenance of these structures increasingly essential and urgent. Crack identification is crucial for maintaining the structural integrity and safety of buildings. Traditional methods rely on manual inspection, which is plagued by low accuracy, inefficiency, and safety hazards. This paper proposes a technique combining an attention-based SqueezeNet network with Gradient-weighted Class Activation Mapping (Grad-CAM) for automatically recognizing and visually explaining building cracks. By integrating the Squeeze-and-Excitation (SE) attention mechanism with the lightweight SqueezeNet network, this method can adaptively adjust the importance of feature channels by learning global information, effectively improving the network’s accuracy and efficiency. The experimental results show that the Att-SqueezeNet model achieved a high precision of 0.995, a training time of only 133 seconds, and a model size of 4.9M, significantly outperforming models such as SqueezeNet, RF, CNN, VGG-19, and B-CNN. This demonstrates its robustness, rapid identification and suitability for practical applications and building crack identification. Moreover, the utilization of Grad-CAM for visualization not only offers an intuitive explanation of the model’s decision-making process but also provides a more comprehensible understanding of crack detection results. This is crucial for advancing building maintenance automation, reducing reliance on manual labor, and increasing the precision and reliability of detection tasks.

Published
2024
Full Text
View/download PDF

7. The First Visual Object Tracking Segmentation VOTS2023 Challenge Results

Author

Kristan, Matej, primary, Matas, Jiří, additional, Danelljan, Martin, additional, Felsberg, Michael, additional, Chang, Hyung Jin, additional, Čehovin Zajc, Luka, additional, Lukežič, Alan, additional, Drbohlav, Ondrej, additional, Zhang, Zhongqun, additional, Tran, Khanh-Tung, additional, Vu, Xuan-Son, additional, Björklund, Johanna, additional, Mayer, Christoph, additional, Zhang, Yushan, additional, Ke, Lei, additional, Zhao, Jie, additional, Fernández, Gustavo, additional, Al-Shakarji, Noor, additional, An, Dong, additional, Arens, Michael, additional, Becker, Stefan, additional, Bhat, Goutam, additional, Bullinger, Sebastian, additional, Chan, Antoni B., additional, Chang, Shijie, additional, Chen, Hanyuan, additional, Chen, Xin, additional, Chen, Yan, additional, Chen, Zhenyu, additional, Cheng, Yangming, additional, Cui, Yutao, additional, Deng, Chunyuan, additional, Dong, Jiahua, additional, Dunnhofer, Matteo, additional, Feng, Wei, additional, Fu, Jianlong, additional, Gao, Jie, additional, Han, Ruize, additional, Hao, Zeqi, additional, He, Jun-Yan, additional, He, Keji, additional, He, Zhenyu, additional, Hu, Xiantao, additional, Huang, Kaer, additional, Huang, Yuqing, additional, Jiang, Yi, additional, Kang, Ben, additional, Lan, Jin-Peng, additional, Lee, Hyungjun, additional, Li, Chenyang, additional, Li, Jiahao, additional, Li, Ning, additional, Li, Wangkai, additional, Li, Xiaodi, additional, Li, Xin, additional, Liu, Pengyu, additional, Liu, Yue, additional, Lu, Huchuan, additional, Luo, Bin, additional, Luo, Ping, additional, Ma, Yinchao, additional, Miao, Deshui, additional, Micheloni, Christian, additional, Palaniappan, Kannappan, additional, Park, Hancheol, additional, Paul, Matthieu, additional, Peng, HouWen, additional, Qian, Zekun, additional, Rahmon, Gani, additional, Scherer-Negenborn, Norbert, additional, Shao, Pengcheng, additional, Shin, Wooksu, additional, Kazemi, Elham Soltani, additional, Song, Tianhui, additional, Stiefelhagen, Rainer, additional, Sun, Rui, additional, Tang, Chuanming, additional, Tang, Zhangyong, additional, Toubal, Imad Eddine, additional, Valmadre, Jack, additional, van de Weijer, Joost, additional, Van Gool, Luc, additional, Vira, Jash, additional, Vujasinović, Stèphane, additional, Wan, Cheng, additional, Wan, Jia, additional, Wang, Dong, additional, Wang, Fei, additional, Wang, Feifan, additional, Wang, He, additional, Wang, Limin, additional, Wang, Song, additional, Wang, Yaowei, additional, Wang, Zhepeng, additional, Wu, Gangshan, additional, Wu, Jiannan, additional, Wu, Qiangqiang, additional, Wu, Xiaojun, additional, Xiao, Anqi, additional, Xie, Jinxia, additional, Xu, Chenlong, additional, Xu, Min, additional, Xu, Tianyang, additional, Xu, Yuanyou, additional, Yan, Bin, additional, Yang, Dawei, additional, Yang, Ming-Hsuan, additional, Yang, Tianyu, additional, Yang, Yi, additional, Yang, Zongxin, additional, Yin, Xuanwu, additional, Yu, Fisher, additional, Yu, Hongyuan, additional, Yu, Qianjin, additional, Yu, Weichen, additional, Yuan, YongSheng, additional, Yuan, Zehuan, additional, Zhang, Jianlin, additional, Zhang, Lu, additional, Zhang, Tianzhu, additional, Zhao, Guodongfang, additional, Zhao, Shaochuan, additional, Zheng, Yaozong, additional, Zhong, Bineng, additional, Zhu, Jiawen, additional, Zhu, Xuefeng, additional, Zhuang, Yueting, additional, Zong, ChengAo, additional, and Zuo, Kunlong, additional

Published
2023
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results