Your search keyword '"Chin-Lan Chen"' showing total 4 results

1. Intelligent synthesis of hyperspectral images from arbitrary web cameras in latent sparse space reconstruction

Author

Yenming J. Chen, Jinn-Tsong Tsai, Kao-Shing Hwang, Chin-Lan Chen, and Wen-Hsien Ho

Subjects

spectral response function (srf), current illuminating function (cif), hyperspectral images (hsi), dichromatic reflection model (drm), cycle-generative adversarial network (gan), sparse ensemble assimilation (sea), Mathematics, QA1-939

Abstract

Synthesizing hyperspectral images (HSI) from an ordinary camera has been accomplished recently. However, such computation models require detailed properties of the target camera, which can only be measured in a professional lab. This prerequisite prevents the synthesizing model from being installed on arbitrary cameras for end-users. This study offers a calibration-free method for transforming any camera into an HSI camera. Our solution requires no controllable light sources and spectrometers. Any consumer installing the program should produce high-quality HSI without the assistance of optical laboratories. Our approach facilitates a cycle-generative adversarial network (cycle-GAN) and sparse assimilation method to render the illumination-dependent spectral response function (SRF) of the underlying camera at the first part of the setup stage. The current illuminating function (CIF) must be identified for each image and decoupled from the underlying model. The HSI model is then integrated with the static SRF and dynamic CIF in the second part of the stage. The estimated SRFs and CIFs have been double-checked with the results by the standard laboratory method. The reconstructed HSIs have errors under 3% in the root mean square.

Published

2023

2. Intelligent synthesis of hyperspectral images from arbitrary web cameras in latent sparse space reconstruction.

Author

Chen, Yenming J., Jinn-Tsong Tsai, Kao-Shing Hwang, Chin-Lan Chen, and Wen-Hsien Ho

Subjects

WEBCAMS, SPECTRAL sensitivity, HYPERSPECTRAL imaging systems, HABITAT suitability index models, ROOT-mean-squares, LIGHT sources, CAMERAS, HYPERGRAPHS

Abstract

Synthesizing hyperspectral images (HSI) from an ordinary camera has been accomplished recently. However, such computation models require detailed properties of the target camera, which can only be measured in a professional lab. This prerequisite prevents the synthesizing model from being installed on arbitrary cameras for end-users. This study offers a calibration-free method for transforming any camera into an HSI camera. Our solution requires no controllable light sources and spectrometers. Any consumer installing the program should produce high-quality HSI without the assistance of optical laboratories. Our approach facilitates a cycle-generative adversarial network (cycle-GAN) and sparse assimilation method to render the illumination-dependent spectral response function (SRF) of the underlying camera at the first part of the setup stage. The current illuminating function (CIF) must be identified for each image and decoupled from the underlying model. The HSI model is then integrated with the static SRF and dynamic CIF in the second part of the stage. The estimated SRFs and CIFs have been double-checked with the results by the standard laboratory method. The reconstructed HSIs have errors under 3% in the root mean square. [ABSTRACT FROM AUTHOR]

Published

2023

3. Glycated hemoglobin level is an independent predictor of major adverse cardiac events after nonfatal acute myocardial infarction in nondiabetic patients

Author

Wayne Heuy Herng Sheu, Chin Sheng Lin, Chin Wang Hsu, David Hung Tzang Yen, Chin Lan Chen, Shih-Hung Tsai, and Sy Jou Chen

Subjects

Univariate analysis, medicine.medical_specialty, business.industry, medicine.medical_treatment, Percutaneous coronary intervention, Retrospective cohort study, General Medicine, Odds ratio, 030204 cardiovascular system & hematology, medicine.disease, Confidence interval, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, chemistry, Interquartile range, Internal medicine, medicine, Cardiology, cardiovascular diseases, 030212 general & internal medicine, Myocardial infarction, Glycated hemoglobin, business

Abstract

The effect of glycemic control on the prognosis of nondiabetic patients after acute myocardial infarction (AMI) remains uncertain. We investigated whether glycated hemoglobin (HbA1c) is associated with adverse outcomes after AMI in nondiabetic patients. In this observational study, we enrolled nondiabetic patients with AMI in the emergency department of 2 medical centers from January 2011 to September 2014. All patients received primary percutaneous coronary intervention and were divided into 4 groups according to the interquartile range of average HbA1c level (Group I, ≤5.6%; Group II, 5.6%-5.8%; Group III, 5.8%-6.0%; and Group IV, >6.0%). Multivariate logistic analysis was performed to estimate the correlation of HbA1c with major adverse cardiac events (MACEs) after AMI. In total, 267 eligible patients were enrolled; 48 patients (18%) developed MACEs within a median follow-up of 178 days. Univariate analysis showed HbA1c > 6.0%, with a higher risk of MACEs in Group IV than in Group I (odds ratio [OR]: 2.733; 95% confidence interval [CI]: 1.123-6.651 vs OR: 1.511; 95% CI: 0.595-3.835). Multivariate analysis revealed an approximately 3.8 times higher risk of MACEs in Group IV than in Group I (OR: 3.769; 95% CI: 1.30-10.86). The HbA1 level is a significant predictor of MACEs after AMI in nondiabetic patients.

Published

2017

4. Glycated hemoglobin level is an independent predictor of major adverse cardiac events after nonfatal acute myocardial infarction in nondiabetic patients: A retrospective observational study.

Author

Chin-Lan Chen, Yen, David H.-T., Chin-Wang Hsu, Shih-Hung Tsai, Sy-Jou Chen, Sheu, Wayne H.-H., Chin-Sheng Lin, Chen, Chin-Lan, Lin, Chin-Sheng, Tsai, Shih-Hung, Chen, Sy-Jou, and Hsu, Chin-Wang

Published

2017