2020年1月1日 星期三

前言與研究主體分類

為讓各位了解相關研發經驗與技術能力,本部分為在不違反NDA的條件下,持續更新的部分研究摘要與組裝的一些重要原型系統。成果包括實驗與模擬,包含以下的主題:

  • l           光學 (Optics)
  • l           光調變器優化,
  • l           光學影像品質與相關元件 (Display Components)
  • l           光通訊元件,
  • l           生醫光電(Bio-Optics/Cell Illuminating)
  • l           材料與計算物理 (Material/Computational Physics)
  • l           |Pxz-Pzy|≤1+Pxy (?)

2015年6月6日 星期六

目前研究主題 - 預測電子電洞Active Region新算則



J. 規劃中論文構想


1.     Chung-Jen Ou, Simple Genetics Algorithm for the Improvements of the Electro-Optical Properties of the ZincOxide Nanorods, Materials and Manufacturing Processes (Special Issues)
2.     Chung-Jen Ou, Novel Optogenetic Experiment Apparatus based on Spatial Light Modulator and Solid State Light Source, Journal of Biomedical Optics
3.     Chung-Jen Ou, Euler Arch Approach with Catastrophic Umbilic Expression for Molecular Folding, Physical Review Letter
4.     Chung-Jen Ou, An Gene Expression Analogy for the Aberrations Patterns of the Imaging Lens System Chung-Jen Ou, Arbitrary Fresnel Lens Design for Large Angular Compensation on Solar Energy Facilities
5.     Chung-Jen Ou, Improvement of Solar Device Efficiency with Segmented Angular Installations
6.     Chung-Jen Ou, Adaptive Semi-Tracking and Semi-Fixed System for Efficient Improvement of Solar Device Chung-Jen Ou, Novel Algorithm and Stabilities Control for Solar Device during the Variations of Weather Index (under constructions)
7.     Chung-Jen Ou, Shielding Effects and Efficiency Improvement for Solar Device
8.     Chung-Jen Ou, High Accuracy Simple Sensor Arrays for the Determination of Illuminating Directions
9.     Chung-Jen Ou, Investigation on the Sampling Days for the Optimized Fixed Type Solar Photo Voltage System Device
10.   Chung-Jen Ou, Generalized Synthesis on the Overall Apodization of the Solar Rays for Solar Energy Device
11.   Chung-Jen Ou, An Catastrophic Interpretations on the Gauss-Siedel Aberrations
12.   Chung-Jen Ou, Zernike Surface Reconstruction for Human Eye Model and the Matching of Artificial Lens
13.   Chung-Jen Ou, Optogenetic Device for Cell Culture and the Future Applications on Neural Gate Experiments
14.   Chung-Jen Ou, An Novel Hamiltonian Based Sequences Comparison Techniques and the Influences to the Weighting Coefficients
15.   Chung-Jen Ou, Single Chip Based Algorithm for Hartman-Shack Wavefront Sensor
16.   Chung-Jen Ou, Analytical Approach on the Wavefront Modulation by Anisotropic Material Based Adaptive Optical Components
17.   Chung-Jen Ou, Shawn Hong, Yu-Kai Tsai, Pei-Yu Lin, Jun-Yu Chen, Yu-Sheng Lin, Zheng-Wei Lin, Robotics Roaming for Adaptive Illuminating/Display Dimming with Energy Saving Sensors

2015年3月17日 星期二

仿生網路模擬

材料與計算物理 (Material/Computational Physics)

歐崇仁+,何貫睿,黃博意,(2007),『基於蒙地卡羅算則之分子靜電場模擬』,2007工程科技與中西醫應用研討會,國立中興大學


本論文使用具有反平方定律特性的幾何追跡軟體來進行分子靜電場的初階模擬。不但可以節省有限元素法空間切割的計算量的問題,並且避開一些模擬大型分子時因為複雜結構導致的模擬資源問題。

本論文獲得大會論文獎

生醫光電 (BioOptics)

1.       C.R.Ou+, Ray Her, Ronnie Tzeng, C.H.Chen, R. Chang and C.J.Chang, Non-Uniformity Effects and Illumination Criterions for Biomedical Images, Proceedings of the 12th International Display Workshops in Conjunction with Asia Display 2005 (IDW/AD'05), pp.941-943




In this article, the effects of non-uniformity to the medical images will be discussed. A microscopic Q value is implementing to define the images qualities for the illumination system. The criterion that connects the macroscopic contract ratio and the Q value is established.

光通訊元件