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2. Peak ground acceleration estimation using P-wave parameters and horizontal-to-vertical spectral ratios

Author

Ting-Yu Hsu, Rih-Teng Wu, Chia-Wei Liang, Chun-Hsiang Kuo, and Che-Min Lin

Subjects
Geology, QE1-996.5, Geophysics. Cosmic physics, QC801-809
Abstract

Peak ground acceleration (PGA) can be used to estimate the seismic intensity. However, using P-wave features to estimate PGA is a challenging task. One of the reasons for that is that a seismic wave commonly undergoes modification due to various site effects, consequently leading to uncertainty in the predicted PGA. In order to accommodate site effects using site parameters together with P-wave parameters, this paper takes advantage of machine learning to consider multiple parameters simultaneously. Several artificial neural network (ANN) models considering different site effect parameters are constructed. The performances of these ANN models were investigated and compared. In total, 53531 ground motion data obtained from the Taiwan Strong Motion Instrumentation Program were utilized to develop the proposed approach. It was found that the proposed ANN model with horizontal-to-vertical spectral ratio parameters effectively reduces the error of the estimated PGA when compared with either the ANN model without site parameters or the ANN model with other site parameters.

Published
2020
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3. Predicting Hepatocellular Carcinoma With Minimal Features From Electronic Health Records: Development of a Deep Learning Model

Author

Chia-Wei Liang, Hsuan-Chia Yang, Md Mohaimenul Islam, Phung Anh Alex Nguyen, Yi-Ting Feng, Ze Yu Hou, Chih-Wei Huang, Tahmina Nasrin Poly, and Yu-Chuan Jack Li

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

BackgroundHepatocellular carcinoma (HCC), usually known as hepatoma, is the third leading cause of cancer mortality globally. Early detection of HCC helps in its treatment and increases survival rates. ObjectiveThe aim of this study is to develop a deep learning model, using the trend and severity of each medical event from the electronic health record to accurately predict the patients who will be diagnosed with HCC in 1 year. MethodsPatients with HCC were screened out from the National Health Insurance Research Database of Taiwan between 1999 and 2013. To be included, the patients with HCC had to register as patients with cancer in the catastrophic illness file and had to be diagnosed as a patient with HCC in an inpatient admission. The control cases (non-HCC patients) were randomly sampled from the same database. We used age, gender, diagnosis code, drug code, and time information as the input variables of a convolution neural network model to predict those patients with HCC. We also inspected the highly weighted variables in the model and compared them to their odds ratio at HCC to understand how the predictive model works ResultsWe included 47,945 individuals, 9553 of whom were patients with HCC. The area under the receiver operating curve (AUROC) of the model for predicting HCC risk 1 year in advance was 0.94 (95% CI 0.937-0.943), with a sensitivity of 0.869 and a specificity 0.865. The AUROC for predicting HCC patients 7 days, 6 months, 1 year, 2 years, and 3 years early were 0.96, 0.94, 0.94, 0.91, and 0.91, respectively. ConclusionsThe findings of this study show that the convolutional neural network model has immense potential to predict the risk of HCC 1 year in advance with minimal features available in the electronic health records.

Published
2021
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5. Simulation of Motor Core Gluing Process with Fine Mesh Nets

Author

Yong-Jie, Zeng, Chia-Wei, Liang, Sheng-Jye, Hwang, Yu-Da, Liu, and Chien-Sheng, Huang

Subjects
iron core, fine mesh structure, computer-aided engineering tools, iron sheet, bonding, Polymers and Plastics, General Chemistry
Abstract

The actual process of using a resin to glue can optimize many shortcomings in the basic traditional process of welding a motor core. For example, the use of a resin for gluing can lead to a reduction in iron loss, improve rigidity, reduce processing times, and improve product quality. When using a gluing method, the biggest challenge is the distribution of the resin; therefore, resin distribution is very much important. This experiment used fine mesh nets to eventually improve the unbalanced state of resin distribution. In this research, in order to predict real flow behavior during gluing, computer-aided engineering was used for computer simulation. The results of the simulation showed that the illustrated trend of the filling process was very much similar to the actual experimental results. The simulation results could mostly predict defects and make effective improvements, which can lead to a significant reduction in the money and time spent on experiments. The simulation results of the dipping process also showed that the distribution of resin with fine mesh nets was more even than without fine mesh nets. Fine mesh nets can eventually improve an over-flow problem, which, ultimately, causes bumps. In this research, a simulation analysis of the gluing process of a motor core with fine mesh nets was conducted, and the results show that the resin distribution and the flow front of the runner were more even than those without fine mesh nets.

Published
2022
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6. Peak ground acceleration estimation using P-wave parameters and horizontal-to-vertical spectral ratios

Author

Rih-Teng Wu, Ting-Yu Hsu, Chia Wei Liang, Chun Hsiang Kuo, and Che Min Lin

Subjects
lcsh:Geology, Physics, Atmospheric Science, Peak ground acceleration, Computer Science::Neural and Evolutionary Computation, lcsh:QE1-996.5, P wave, Earth and Planetary Sciences (miscellaneous), lcsh:G1-922, Oceanography, lcsh:Geography (General), Computational physics
Abstract

Peak ground acceleration (PGA) can be used to estimate the seismic intensity. However, using P-wave features to estimate PGA is a challenging task. One of the reasons for that is that a seismic wave commonly undergoes modification due to various site effects, consequently leading to uncertainty in the predicted PGA. In order to accommodate site effects using site parameters together with P-wave parameters, this paper takes advantage of machine learning to consider multiple parameters simultaneously. Several artificial neural network (ANN) models considering different site effect parameters are constructed. The performances of these ANN models were investigated and compared. In total, 53531 ground motion data obtained from the Taiwan Strong Motion Instrumentation Program were utilized to develop the proposed approach. It was found that the proposed ANN model with horizontal-to-vertical spectral ratio parameters effectively reduces the error of the estimated PGA when compared with either the ANN model without site parameters or the ANN model with other site parameters.

Published
2020
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7. Predicting Hepatocellular Carcinoma With Minimal Features From Electronic Health Records: Development of a Deep Learning Model (Preprint)

Author

Chia-Wei Liang, Hsuan-Chia Yang, Md Mohaimenul Islam, Phung Anh Alex Nguyen, Yi-Ting Feng, Ze Yu Hou, Chih-Wei Huang, Tahmina Nasrin Poly, and Yu-Chuan Jack Li

Subjects
digestive system diseases
Abstract

BACKGROUND Hepatocellular carcinoma (HCC), usually known as hepatoma, is the third leading cause of cancer mortality globally. Early detection of HCC helps in its treatment and increases survival rates. OBJECTIVE The aim of this study is to develop a deep learning model, using the trend and severity of each medical event from the electronic health record to accurately predict the patients who will be diagnosed with HCC in 1 year. METHODS Patients with HCC were screened out from the National Health Insurance Research Database of Taiwan between 1999 and 2013. To be included, the patients with HCC had to register as patients with cancer in the catastrophic illness file and had to be diagnosed as a patient with HCC in an inpatient admission. The control cases (non-HCC patients) were randomly sampled from the same database. We used age, gender, diagnosis code, drug code, and time information as the input variables of a convolution neural network model to predict those patients with HCC. We also inspected the highly weighted variables in the model and compared them to their odds ratio at HCC to understand how the predictive model works RESULTS We included 47,945 individuals, 9553 of whom were patients with HCC. The area under the receiver operating curve (AUROC) of the model for predicting HCC risk 1 year in advance was 0.94 (95% CI 0.937-0.943), with a sensitivity of 0.869 and a specificity 0.865. The AUROC for predicting HCC patients 7 days, 6 months, 1 year, 2 years, and 3 years early were 0.96, 0.94, 0.94, 0.91, and 0.91, respectively. CONCLUSIONS The findings of this study show that the convolutional neural network model has immense potential to predict the risk of HCC 1 year in advance with minimal features available in the electronic health records.

Published
2020
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8. Association between gout and cardiovascular disease risk: A nation-wide case-control study

Author

Tahmina Nasrin Poly, Yu-Chuan Jack Li, Hsuan Chia Yang, Chia-Wei Liang, and Md. Mohaimenul Islam

Subjects
030203 arthritis & rheumatology, medicine.medical_specialty, Heart disease, business.industry, Case-control study, Arthritis, Joint bone, medicine.disease, Gout, 03 medical and health sciences, 0302 clinical medicine, Rheumatology, Internal medicine, medicine, Disease risk, 030212 general & internal medicine, business
Abstract

Joint Bone Spine - In Press.Proof corrected by the author Available online since mardi 28 aout 2018

Published
2019
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9. Predicting Hepatocellular Carcinoma With Minimal Features From Electronic Health Records: Development of a Deep Learning Model

Author

Yi-Ting Feng, Yu-Chuan Jack Li, Mohaimenul Islam, Phung Anh Nguyen, Hsuan Chia Yang, Ze Yu Hou, Chih-Wei Huang, Chia-Wei Liang, and Tahmina Nasrin Poly

Subjects
Original Paper, Cancer Research, medicine.medical_specialty, Catastrophic illness, Receiver operating characteristic, business.industry, Deep learning, deep learning, Cancer, deep learning model, hepatocellular carcinoma, hepatoma, Odds ratio, Health records, medicine.disease, digestive system diseases, convolution neural network, risk prediction, Oncology, Internal medicine, Hepatocellular carcinoma, Medicine, Diagnosis code, Artificial intelligence, business
Abstract

Background Hepatocellular carcinoma (HCC), usually known as hepatoma, is the third leading cause of cancer mortality globally. Early detection of HCC helps in its treatment and increases survival rates. Objective The aim of this study is to develop a deep learning model, using the trend and severity of each medical event from the electronic health record to accurately predict the patients who will be diagnosed with HCC in 1 year. Methods Patients with HCC were screened out from the National Health Insurance Research Database of Taiwan between 1999 and 2013. To be included, the patients with HCC had to register as patients with cancer in the catastrophic illness file and had to be diagnosed as a patient with HCC in an inpatient admission. The control cases (non-HCC patients) were randomly sampled from the same database. We used age, gender, diagnosis code, drug code, and time information as the input variables of a convolution neural network model to predict those patients with HCC. We also inspected the highly weighted variables in the model and compared them to their odds ratio at HCC to understand how the predictive model works Results We included 47,945 individuals, 9553 of whom were patients with HCC. The area under the receiver operating curve (AUROC) of the model for predicting HCC risk 1 year in advance was 0.94 (95% CI 0.937-0.943), with a sensitivity of 0.869 and a specificity 0.865. The AUROC for predicting HCC patients 7 days, 6 months, 1 year, 2 years, and 3 years early were 0.96, 0.94, 0.94, 0.91, and 0.91, respectively. Conclusions The findings of this study show that the convolutional neural network model has immense potential to predict the risk of HCC 1 year in advance with minimal features available in the electronic health records.

Published
2021
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11. A probabilistic model for reducing medication errors: A sensitivity analysis using Electronic Health Records data

Author

Chia wei Liang, Hsuan Chia Yang, Phung Anh Nguyen, Yu-Chuan Li, Mohaimenul Islam, Chu Ya Huang, and Fei Peng Lee

Subjects
medicine.medical_specialty, Specialty, Taiwan, Health Informatics, Clinical decision support system, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Health care, False positive paradox, medicine, Electronic Health Records, Humans, Medication Errors, Medical physics, Sensitivity (control systems), Medical prescription, Models, Statistical, business.industry, Statistical model, Gold standard (test), Decision Support Systems, Clinical, Computer Science Applications, business, 030217 neurology & neurosurgery, Software
Abstract

Objectives Medication-related clinical decision support systems have already been considered as a sophisticated method to improve healthcare quality, however, its importance has not been fully recognized. This paper's aim was to validate an existing probabilistic model that can automatically identify medication errors by performing a sensitivity analysis from electronic medical record data. Methods We first built a knowledge base that consisted of 2.22 million disease-medication (DM) and 0.78 million medication-medication (MM) associations using Taiwan Health and Welfare data science claims data between January 1st, 2009 and December 31st, 2011. Further, we collected 0.6 million outpatient visit prescriptions from six departments across five different medical centers/hospitals. Afterward, we employed the data to our AESOP model and validated it using a sensitivity analysis of 11 various thresholds (α = [0.5; 1.5]) that were used to identify positive DM and MM associations. We randomly selected 2400 randomly prescriptions and compared them to the gold standard of 18 physicians’ manual review for appropriateness. Results One hundred twenty-one results of 2400 prescriptions with various thresholds were tested by the AESOP model. Validation against the gold standard showed a high accuracy (over 80%), sensitivity (80–96%), and positive predictive value (over 85%). The negative predictive values ranged from 45 to 75% across three departments, cardiology, neurology, and ophthalmology. Conclusion We performed a sensitivity analysis and validated the AESOP model in different hospitals. Thus, picking the optimal threshold of the model depended on balancing false negatives with false positives and depending on the specialty and the purpose of the system.

Published
2018

13. Assessment of Deep Learning Using Nonimaging Information and Sequential Medical Records to Develop a Prediction Model for Nonmelanoma Skin Cancer

Author

Hsiao Han Wang, Yu Hsiang Wang, Yu-Chuan Li, and Chia Wei Liang

Subjects
medicine.medical_specialty, Receiver operating characteristic, business.industry, Medical record, Carcinoma in situ, MEDLINE, Cancer, Dermatology, medicine.disease, 030207 dermatology & venereal diseases, 03 medical and health sciences, 0302 clinical medicine, Osteopathy, 030220 oncology & carcinogenesis, Internal medicine, medicine, Skin cancer, Medical prescription, business, Original Investigation
Abstract

Importance A prediction model for new-onset nonmelanoma skin cancer could enhance prevention measures, but few patient data–driven tools exist for more accurate prediction. Objective To use machine learning to develop a prediction model for incident nonmelanoma skin cancer based on large-scale, multidimensional, nonimaging medical information. Design, Setting, and Participants This study used a database comprising 2 million randomly sampled patients from the Taiwan National Health Insurance Research Database from January 1, 1999, to December 31, 2013. A total of 1829 patients with nonmelanoma skin cancer as their first diagnosed cancer and 7665 random controls without cancer were included in the analysis. A convolutional neural network, a deep learning approach, was used to develop a risk prediction model. This risk prediction model used 3-year clinical diagnostic information, medical records, and temporal-sequential information to predict the skin cancer risk of a given patient within the next year. Stepwise feature selection was also performed to investigate important and determining factors of the model. Statistical analysis was performed from November 1, 2016, to October 31, 2018. Main Outcomes and Measures Sensitivity, specificity, and area under the receiver operating characteristic (AUROC) curve were used to evaluate the performance of the models. Results A total of 1829 patients (923 women [50.5%] and 906 men [49.5%]; mean [SD] age, 65.3 [15.7] years) with nonmelanoma skin cancer and 7665 random controls without cancer (3951 women [51.5%] and 3714 men [48.4%]; mean [SD] age, 47.5 [17.3] years) were included in the analysis. The 1-year incident nonmelanoma skin cancer risk prediction model using sequential diagnostic information and drug prescription information as a time-incorporated feature matrix could attain an AUROC of 0.89 (95% CI, 0.87-0.91), with a mean (SD) sensitivity of 83.1% (3.5%) and mean (SD) specificity of 82.3% (4.1%). Carcinoma in situ of skin (AUROC, 0.867; –2.80% loss) and other chronic comorbidities (eg, degenerative osteopathy [AUROC, 0.872; –2.32% loss], hypertension [AUROC, 0.879; –1.53% loss], and chronic kidney insufficiency [AUROC, 0.879; –1.52% loss]) served as more discriminative factors for the prediction. Medications such as trazodone, acarbose, systemic antifungal agents, statins, nonsteroidal anti-inflammatory drugs, and thiazide diuretics were the top-ranking discriminative features in the model; each led to more than a 1% decrease of the AUROC when eliminated individually (eg, trazodone AUROC, 0.868; −2.67% reduction; acarbose AUROC, 0.870; −2.50 reduction; and systemic antifungal agents AUROC, 0.875; −1.99 reduction). Conclusions and Relevance The findings of this study suggest that a risk prediction model may have potential predictive factors for nonmelanoma skin cancer. This model may help health care professionals target high-risk populations for more intensive skin cancer preventive methods.

Published
2019
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14. Heterogeneous Chip Integration Process for Flexible Wireless Microsystem Application

Author

Chia-Wei Liang, Tzu-Yuan Chao, Chien-Nan Kuo, and Yu-Ting Cheng

Subjects
Interconnection, Materials science, business.industry, Electrical engineering, Integrated circuit, Chip, Flexible electronics, Electronic, Optical and Magnetic Materials, law.invention, law, Microsystem, Return loss, Insertion loss, Electrical and Electronic Engineering, business, Flip chip
Abstract

This paper presents a low-cost heterogeneous integration technology combining the previously developed bump less radio-frequency (RF) system-on-a-package scheme with a special surface cleaning process to assemble a complementary metal-oxide-semiconductor chip with an organic substrate (SU-8/ polydimethylsiloxane) by low-temperature Au-Au thermocompressive bonds (

Published
2011
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