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1,298 results on '"Wang, Huiying"'

1. Deformable Joule Heating Electrode Based on Hybrid Layers of Silver Nanowires and Carbon Nanotubes and its Application in a Refreshable Multi‐Cell Braille Display

Author

Kim, Jinsung, Xie, Zhixin, Peng, Zihang, Hong, HyeonJi, Shajari, Shaghayegh, Guo, Yuxuan, Wu, Hanxiang, Meng, Yuan, Plamthottam, Roshan, Zhu, Yuan, Qiu, Yu, Wang, Huiying, Cheng, Alex, and Pei, Qibing

Subjects
Engineering, Materials Engineering, bistable electroactive polymers, Braille devices, Joule heating, pneumatic actuation, stretchable electrodes, Stretchable electrodes, Physical Sciences, Chemical Sciences, Materials, Chemical sciences, Physical sciences
Abstract

Stretchable electrodes are an essential component in soft actuator systems. In particular, Joule heating electrodes (JHEs) are required for thermal actuation systems. A highly stretchable, patternable, and low-voltage operating JHE based on hybrid layers of silver nanowires (AgNWs) and carbon nanotubes (CNTs) is reported. The conductive layers were applied on a locally pre-strained bistable electroactive polymer (BSEP) membrane to form a wrinkled conductive surface with a low resistance of 300 Ω/sq, and subsequently patterned to a serpentine trace by laser engraving. The resistance of the resulting electrode remains nearly unchanged up to ~80-90% area strain. By applying a voltage of 7 - 9 V to the electrode, the temperature of the BSEP membrane increased to more than 60 °C, well above the polymer's phase transition temperature of 46 °C, thereby lowering its modulus by a factor of 103. An electronic Braille device based on the JHEs on a BSEP membrane was assembled with a diaphragm chamber. The electrode was patterned into 3 × 2 individually addressable pixels according to the standard U.S. Braille cell format. Through Joule heating of the pixels and local expansion of the BSEP membrane using a small pneumatic pressure, the pixels deformed out of the plane by over 0.5 mm to display specific Braille letters. The Braille content can be refreshed for 20,000 cycles at the same operating voltage.

Published
2024

7. Applicability Evaluation of Provincial Precipitation Real-time Analysis Product in Beijing

Author

Zhao Wenfang, Wang Huiying, Meng Huifang, Miao Yupeng, Huang Mingming, Fan Min, and Tang Wei

Subjects
real-time analysis product, skill scoring, multi-source fusion, accuracy evaluation, Meteorology. Climatology, QC851-999
Abstract

The national precipitation real-time analysis product is a gridded product developed using probability density matching, Bayesian model averaging, multi grid variation, optimal interpolation and other technologies by National Meteorological Information Center. It has advantages of high accuracy, high quality, and spatiotemporal continuity, and is widely used in national nowcasting forecasting operations. In September 2022, National Meteorological Information Center issues a provincial multi-source fusion real-time analysis system to promote the collaborative application of precipitation analysis in different provinces. The same core multi-source fusion algorithms for real-time precipitation analysis products are applied in this system, allowing access to additional provincial local observations. The consistency and accuracy of the provincial precipitation analysis products in Beijing from September 2022 to August 2023 are evaluated by automatic weather station observations, error analysis, effective precipitation time proportion, and other methods. "23·7" extreme precipitation event is also analyzed in terms of cumulative precipitation, precipitation intensity, and hourly precipitation error. Results show that root mean square error of the provincial precipitation analysis product is less than 1 mm, and the average absolute deviation is below 0.16 mm, which closely aligns with observations from automatic weather stations. The bias of provincial precipitation real-time analysis product increases with magnitude of precipitation. The intensity of light rain exceeds the observation, while the spatial distribution difference of bias is evident. The maximum negative deviation occurs in both moderate rain and rainstorm magnitudes of Yanqing, while the maximum positive deviation is observed at Changping. During the extreme precipitation event of "23·7", the spatial distribution of provincial precipitation real-time analysis product is largely consistent with observations from automatic weather stations. The precipitation intensity is consistent with the trend of time variation observed by automatic weather stations, with an average root mean square error of 1.8 mm and an average absolute deviation of 0.806 mm, which more accurately reflects the trend of precipitation intensity variation. Overall, the provincial precipitation real-time analysis product has high accuracy in Beijing and can reflect the spatial distribution of precipitation, but the estimate is lower than the observation in the precipitation course of local heavy rainstorm.

Published
2024
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15. A comparative study on health quotient of nursing students before and after the clinical internship (护理专业学生实习前后健康商数状况的对比研究)

Author

WANG Huiying (王慧颖), ZHOU Fang (周芳), and LI Ru (李茹)

Subjects
nursing students, health management, health quotient, internship, 护理专业学生, 健康管理, 健康商数, 实习, Nursing, RT1-120
Abstract

Objective To investigate the influence of internship at the health management center of a hospital on health quotient of nursing students, and explore ways of developing students’ health awareness. Methods A total of 160 nursing students were investigated with Health Quotient Modified Questionnaire, and changes in health quotient level were analyzed before and after internship. Results Nursing students achieved higher scores of self-care, health knowledge, life skills and mental status dimension at the end of internship (P<0. 05). There was no significant difference in living habits dimension before and after internship (P>0. 05). Conclusion Professional health guidance and training and enhanced clinical practice during internship contribute to the health quotient improvement among nursing students. (目的 探讨在健康管理中心实习对护理专业实习生健康商数(健商)的影响, 探索培养学生健康意识的途径。方法 采用健康商数修正版问卷收集资料, 分别在实习前和实习后进行调查, 分析160名护理专业实习生健商状况。结果 实习后, 160名护理专业实习生自我保健、健康知识、生活技能、精神状态维度评分结果较实习前提高, 差异有统计学意义(P<0. 05), 生活方式维度评分改变的差异无统计学意义(P>0. 05)。结论 通过开展专业的健康指导和培养, 强化临床实习培养, 有助于提升护理专业实习生健商。)

Published
2024
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31. A tripartite rheostat controls self-regulated host plant resistance to insects

Author

Guo, Jianping, Wang, Huiying, Guan, Wei, Guo, Qin, Wang, Jing, Yang, Jing, Peng, Yaxin, Shan, Junhan, Gao, Mingyang, Shi, Shaojie, Shangguan, Xinxin, Liu, Bingfang, Jing, Shengli, Zhang, Jing, Xu, Chunxue, Huang, Jin, Rao, Weiwei, Zheng, Xiaohong, Wu, Di, Zhou, Cong, Du, Bo, Chen, Rongzhi, Zhu, Lili, Zhu, Yuxian, Walling, Linda L., Zhang, Qifa, and He, Guangcun

Published
2023
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45. Automated Segmentation of Brain Gray Matter Nuclei on Quantitative Susceptibility Mapping Using Deep Convolutional Neural Network

Author

Chai, Chao, Qiao, Pengchong, Zhao, Bin, Wang, Huiying, Liu, Guohua, Wu, Hong, Haacke, E Mark, Shen, Wen, Cao, Chen, Ye, Xinchen, Liu, Zhiyang, and Xia, Shuang

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Abnormal iron accumulation in the brain subcortical nuclei has been reported to be correlated to various neurodegenerative diseases, which can be measured through the magnetic susceptibility from the quantitative susceptibility mapping (QSM). To quantitively measure the magnetic susceptibility, the nuclei should be accurately segmented, which is a tedious task for clinicians. In this paper, we proposed a double-branch residual-structured U-Net (DB-ResUNet) based on 3D convolutional neural network (CNN) to automatically segment such brain gray matter nuclei. To better tradeoff between segmentation accuracy and the memory efficiency, the proposed DB-ResUNet fed image patches with high resolution and the patches with low resolution but larger field of view into the local and global branches, respectively. Experimental results revealed that by jointly using QSM and T$_\text{1}$ weighted imaging (T$_\text{1}$WI) as inputs, the proposed method was able to achieve better segmentation accuracy over its single-branch counterpart, as well as the conventional atlas-based method and the classical 3D-UNet structure. The susceptibility values and the volumes were also measured, which indicated that the measurements from the proposed DB-ResUNet are able to present high correlation with values from the manually annotated regions of interest., Comment: submitted to IEEE Transactions on Medical Imaging

Published
2020

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