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9,554 results on '"Chang, Hui"'

1. A Convolutional Neural Network-based Ensemble Post-processing with Data Augmentation for Tropical Cyclone Precipitation Forecasts

Author

Chen, Sing-Wen, Juang, Joyce, Wang, Charlotte, Chang, Hui-Ling, Hong, Jing-Shan, and Hsiao, Chuhsing Kate

Subjects
Statistics - Applications, Physics - Geophysics, 86A05 (Primary) 62-08 (Secondary)
Abstract

Heavy precipitation from tropical cyclones (TCs) may result in disasters, such as floods and landslides, leading to substantial economic damage and loss of life. Prediction of TC precipitation based on ensemble post-processing procedures using machine learning (ML) approaches has received considerable attention for its flexibility in modeling and its computational power in managing complex models. However, when applying ML techniques to TC precipitation for a specific area, the available observation data are typically insufficient for comprehensive training, validation, and testing of the ML model, primarily due to the rapid movement of TCs. We propose to use the convolutional neural network (CNN) as a deep ML model to leverage the spatial information of precipitation. The proposed model has three distinct features that differentiate it from traditional CNNs applied in meteorology. First, it utilizes data augmentation to alleviate challenges posed by the small sample size. Second, it contains geographical and dynamic variables to account for area-specific features and the relative distance between the study area and the moving TC. Third, it applies unequal weights to accommodate the temporal structure in the training data when calculating the objective function. The proposed CNN-all model is then illustrated with the TC Soudelor's impact on Taiwan. Soudelor was the strongest TC of the 2015 Pacific typhoon season. The results show that the inclusion of augmented data and dynamic variables improves the prediction of heavy precipitation. The proposed CNN-all outperforms traditional CNN models, based on the continuous probability skill score (CRPSS), probability plots, and reliability diagram. The proposed model has the potential to be utilized in a wide range of meteorological studies., Comment: 21 pages, 6 figures, 2 tables, 2 supplementary figures

Published
2024

24. Effects of Metallographic Preparation Process on the Microstructure Evaluation of Nano-Zirconia Coating

Author

LI Shuangyue, CHANG Hui, WANG Junzhe, CUI Fengjing, JIA Bowen, LUAN Shengjia, ZHANG Jia, XU Na, GAO Minghao, CHANG Xinchun

Subjects
nano-zirconia coating, metallographic preparation, microstructure, porosity, nano-ct method, Materials of engineering and construction. Mechanics of materials, TA401-492, Technology
Abstract

In order to prepare metallographic samples that accurately characterize the true state of the analyzed samples and evaluate the microstructure of the coating precisely, taking nano-zirconia coating as the research object, metallographic samples were prepared by using different inlaying methods. The influence of different grinding and polishing process parameters on the microstructure evaluation of the coatings based on orthogonal tests was investigated, and the results were verified by measuring the porosity of coatings through the nano-CT method. Results showed that the method of vacuum cold inlay could significantly reduce the phenomenon of coating particle detachment. The factors affecting the porosity of the coating in order of magnitude were the number of revolutions of the grinding disc during rough grinding, the number of fixture revolutions during rough grinding, the polishing time during rough polishing and the pressure during grinding and rough polishing. The optimized parameters for the grinding and polishing process were 15 N pressure for grinding and rough polishing, 200 r/min for the grinding disc during rough grinding, 50 r/min for the fixture during rough grinding, and 9 min for rough polishing. The porosity of the coating under this process was 4.26%, which significantly reduced the phenomenon of shedding of coating particles and allowed the preparation of metallographic samples that reflected the true microstructure of the coating, thereby achieving the goal of accurately evaluating the performance of the coating. The results obtained by the nano-CT method were consistent with the present method.

Published
2024
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33. Evaluating Learning Outcomes by Applying Interdisciplinary Hands-On Learning to Advanced Technology Courses

Author

Chang, Hui-Tzu, Wu, Hsien-Hua, and Chang, Yi-Ting

Abstract

The purpose of this study is to understand the learning outcomes of students who participate in interdisciplinary hands-on advanced technology courses and the factors influencing their outcomes as well as to determine whether learning outcomes and cognitive development are affected by students' motivation for selecting the course with regard to their learning abilities. The subjects of this study are students who were enrolled in interdisciplinary advanced technology courses at a university located in Northern Taiwan from 2020 to 2021. We recruited 171 students to complete measures of their motivation for selecting the course and to complete a prelearning outcome scale during the first week; a learning abilities scale was completed during the ninth week; and a postlearning outcomes scale was completed during the sixteenth week. We recruited 96 students to participate in interviews after they completed the course to determine their cognitive development. The results showed that participants' average learning outcomes scores on the posttest were significantly higher than those on the pretest. After students participated in the course, 66.7% of them were in the "Apply" stage, indicating they could apply the knowledge they learned to other situations, while 25% were in the "Analyze" stage, indicating they could deconstruct the course knowledge based on its structure and understand the correlations among various items of course knowledge. Participants' interdisciplinary abilities were found to mediate the relationship between their autonomous motivation and cognitive development.

Published
2023
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36. A Study on the Mechanical Behavior and Deformation Mechanism of the Aged Ni2CoCr0.5Si0.3Al0.1Ti0.1 Medium Entropy Alloy

Author

LUO Shunhui, CHANG Hui, WANG Qiang, ZHANG Jiaxin, ZHANG Tuanwei, and WANG Zhihua

Subjects
medium entropy alloy, composition design, aging treatment, mechanical properties, precipitation strengthening, deformation mechanism, Chemical engineering, TP155-156, Materials of engineering and construction. Mechanics of materials, TA401-492, Technology
Abstract

Purposes A novel type of Ni2CoCr0.5Si0.3Al0.1Ti0.1 medium entropy alloy is designed in this work. Methods Trace amounts of Si, Al, and Ti elements are added to the non-equiatomic ratio NiCoCr-based medium entropy alloy, and dispersed coherent L12 phase precipitation is introduced through aging heat treatment at different temperatures. Findings The results show that the Ni2CoCr0.5Si0.3Al0.1Ti0.1 medium entropy alloy aged at 700 ℃ has the best mechanical properties, with a yield strength of 783 MPa, an ultimate tensile of 1 252 MPa, and an elongation of 41.6%. Compared with the annealed samples, the alloy after aging treatment is increased in yield strength by 310 MPa. Further analysis of the initial microstructure of the alloy aged at 700 ℃ reveals the presence of coherent L12 phase structure and trace amount of intermetallic compound Ni16Ti6Si7 phase. Meanwhile, because of the severe deformation through cold rolling and the short time of annealing treatment, trace stacking faults, nano stacking fault networks, Lomer-Cottrell locks, and dislocation pinning phenomena are found in the initial structure. The geometrically necessary dislocation exhibits a uniform distribution during the stretching process, and the main deformation mode is dominated by dislocation slip with a stacking fault structure.

Published
2024
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