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Huang, Chih-Yao,Chen, Ching-Piao,Li, Rong-Kwei,Tsai, Chih-Hung The Korean Society for Quality Management 2008 The Asian Journal on Quality Vol.9 No.1
The steel bars account for a high percentage of material costs for the current construction projects. At the present time, most of the construction projects for the factories of thin-film transistor liquid crystal display (TFT-LCD) complete the transactions of steel bars when the suppliers ship the steel bars to the temporary storage/processing sites. This paper applies the buy-in concept in the Theory of Constraint (TOC) on the supply chain of steel bars. In this study, suppliers are required to establish warehouses at the construction sites and complete the transactions when the formed and processed steel bars are shipped into the factory sites. The aim is to find a win-win solution to meet with the expectations from constructors as they hope that there is no need to build up inventories but supply is ready at any time. Also, this paper compares and analyzes the traditional supply/inventory model of steel bars and the Demand-Pull (D-P) model under the TOC framework. It is proved that Vendor Management Inventory (VMI) in the D-P model is able to more effectively manage steel bars as a material.
Equifield line simulation and ion migration prediction for concrete under 2-D electric field
Chih-Chien Liu,Chun-Yao Huang,Wen-Ten Kuo 사단법인 한국계산역학회 2013 Computers and Concrete, An International Journal Vol.12 No.4
This study attempted to find a proper method applicable to simulating practical equifield lines of two-dimensional Accelerate Lithium Migration Technique (ALMT), and evaluate the feasibility of using the theoretical ion migration model of one-dimensional ALMT to predict the ion migration behavior of two-dimensional ALMT. The result showed that the electrolyte or carbon plate can be used as matrix to draw equifield line graph similar to that by using mortar as matrix. Using electrolyte electrode module for simulation has advantages of simple production, easy measurement, rapidness, and economy. The electrolyte module can be used to simulate the equifield line distribution diagram in practical two-dimensional electrode configuration firstly. Then, several equifield line zones were marked, and several subzones under one-dimensional ALMT were separated from various equifield line zones. The theoretical free content distribution of alkali in concrete under two-dimensional electric field effect could be obtained from duration analysis.
Chih-Chieh Lin,Yun-Ching Huang,Wei-Chia Lee,Yao-Chi Chuang 대한배뇨장애요실금학회 2020 International Neurourology Journal Vol.24 No.3
Interstitial cystitis/bladder pain syndrome (IC/BPS), which is characterized by bladder pain and irritative voiding symptoms, is a frustrating disease without effective treatment. The cause is still largely not understood, although urothelium ischemia/hypoxia, apoptosis, denudation, and infiltration of inflammatory cells are common histopathological findings. The current uncertainty regarding the etiology and pathology of IC/BPS has a negative impact on its timely and successful treatment; therefore, the development of new treatment modalities is urgently needed. Herein, we present advances in our knowledge on this topic and review the potential application of regenerative medicine for the treatment of IC/BPS. This article provides information on the basic characteristics and clinical evidence of stem cells, platelet-rich plasma (PRP), and low-energy shock waves (LESWs) based on a literature review with a search strategy for articles related to IC/BPS, stem cells, PRP, and LESW published in MEDLINE and PubMed. Stem cells, PRP, and LESW, which modulate inflammatory processes and promote tissue repair, have been proven to improve bladder regeneration, relieve bladder pain, inhibit bladder inflammation, and increase bladder capacity in some preclinical studies. However, clinical studies are still in their infancy. Based on the mechanisms of action of stem cells, PRP, and LESW documented in many preclinical studies, the potential applications of regenerative medicine for the treatment of IC/BPS is an emerging frontier of interest. However, solid evidence from clinical studies remains to be obtained.
The Quantitative Evaluation of Automatic Segmentation in Lumbar Magnetic Resonance Images
Yao-Wen Liang,Yu-Ting Fang,Ting-Chun Lin,Cheng-Ru Yang,Chih-Chang Chang,Hsuan-Kan Chang,Chin-Chu Ko,Tsung-Hsi Tu,Li-Yu Fay,Jau-Ching Wu,Wen-Cheng Huang,Hsiang-Wei Hu,You-Yin Chen,Chao-Hung Kuo 대한척추신경외과학회 2024 Neurospine Vol.21 No.2
Objective: This study aims to overcome challenges in lumbar spine imaging, particularly lumbar spinal stenosis, by developing an automated segmentation model using advanced techniques. Traditional manual measurement and lesion detection methods are limited by subjectivity and inefficiency. The objective is to create an accurate and automated segmentation model that identifies anatomical structures in lumbar spine magnetic resonance imaging scans. Methods: Leveraging a dataset of 539 lumbar spinal stenosis patients, the study utilizes the residual U-Net for semantic segmentation in sagittal and axial lumbar spine magnetic resonance images. The model, trained to recognize specific tissue categories, employs a geometry algorithm for anatomical structure quantification. Validation metrics, like Intersection over Union (IOU) and Dice coefficients, validate the residual U-Net’s segmentation accuracy. A novel rotation matrix approach is introduced for detecting bulging discs, assessing dural sac compression, and measuring yellow ligament thickness. Results: The residual U-Net achieves high precision in segmenting lumbar spine structures, with mean IOU values ranging from 0.82 to 0.93 across various tissue categories and views. The automated quantification system provides measurements for intervertebral disc dimensions, dural sac diameter, yellow ligament thickness, and disc hydration. Consistency between training and testing datasets assures the robustness of automated measurements. Conclusion: Automated lumbar spine segmentation with residual U-Net and deep learning exhibits high precision in identifying anatomical structures, facilitating efficient quantification in lumbar spinal stenosis cases. The introduction of a rotation matrix enhances lesion detection, promising improved diagnostic accuracy, and supporting treatment decisions for lumbar spinal stenosis patients.
Identification of Common Mode Noise Current Path in a SiC Power Module
Chih-Ming Tzeng,Pin-Tzu Chiu,M.H. Pong,Yan-Cheng Liu,Chun-Jen Yao,Hsin-Han Lin,Yu-Hua Cheng,Huang-Jen Chiu 전력전자학회 2023 ICPE(ISPE)논문집 Vol.2023 No.-
Common mode current constituents a large part of EMI generated in power converters especially those power modules with a baseplate. It is most useful to be able to illustrate the noise current paths especially the CM current which flows through stray capacitance. This work illustrates a method to work out the critical current paths. FEA software computes the capacitances from the module layout structure. Power device capacitances are also included. Circuit simulation computes currents in various branches and verified by experiment. This work reveals that in addition to the knowledge that the switching node produces significant common mode current, the power rails are also essential coupling paths above the module baseplate. This is because of the linkage to the switching node by high device capacitances.
Jing-Hua Tzeng,Chih-Huang Weng,Yu-Hao Lin,Shang-Ming Huang,Li-Ting Yen,Jin Anotai,Yao-Tung Lin 한국공업화학회 2019 Journal of Industrial and Engineering Chemistry Vol.80 No.-
A novel visible light driven tourmaline-nitrogen-doped-TiO2 composite (S-N-TiO2) was prepared using afacile impregnation and sol gel method and its photocatalytic reaction scheme with ethylene wasproposed. X-ray diffraction analysis confirmed the presence of TiO2 in the form of anatase phase. Scanning electron microscope and energy dispersive spectrometer mapping showed that the TiO2particles were deposited and dispersed on the surface of tourmaline. Under visible light irradiation, the SN-TiO2 catalyst containing 4 wt.% tourmaline has higher photocatalytic activity for the oxidation ofethylene than pure TiO2 and N-doped-TiO2 (N-TiO2). This enhanced activity could be not only attributedto the narrowed band gap in visible light driven N-TiO2, but also improved by the spontaneous electricfield of tourmaline which was applied to restrain the recombination of the electron–hole pairs. Thephotogenerated electrons from N-TiO2 were induced by electricfield to react with ethylene, and theleaving photogenerated holes also formed the reactive species. The photocatalytic activity of S-N-TiO2 ismuch affected by synthesis conditions. This novel S-N-TiO2 photocatalyst has a promising perspective inthe gas treatment for air pollution control and horticultural product industries.