:::團隊成員

陳啟昌 特聘教授
專任教師
矽光子、人工智慧、大數據、光學電腦、光子晶體、奈米光學、樂器聲學
03-4227151 ext 65257

陳啟昌 特聘教授

研究介紹

本團隊研究領域為全光學方式建立人工智慧計算系統,以及人工智慧相關應用領域。並使用奈米光學技術發展光學計算器。亦以光學方式研究古典吉他等樂器。

 

著作:

人工智慧光學計算:

[1] Meng-Hua Yen, Ding-Well Liu, Yi-Chia Hsin, Chu-En Lin, Chii-Chang Chen*, "Application of the deep learning for the prediction of rainfall in Southern Taiwan," Scientific Reports, vol. 9, p.12774, 2019.

[2]Tian-You Cheng, Da-Ya Chou, Ching-Chuan Liu, Ya-Ju Chang, Chii-Chang Chen*, "Optical Neural Networks Based on Optical Fiber-communication System," Neurocomputing vol. 364, p. 239, 2019.

[3] Tian-You Cheng, Ching-Chuan Liu, Da-Ya Jhou, Chii-Chang Chen* "Impact of coupling topology upon noise robustness of small optical reservoirs," Scientific Reports, vol. 10, p.14086, 2020.

[4] Chu-En Lin, Yueh-Heng Lu, Yu-Tung Lin, Ya-Fan Chen, Ching-Pao Sun, and Chii-Chang Chen*, "All Optical XOR Logic Gate Formed by Unsupervised Optical Neuron Networks," Neurocomputing vol. 460, p. 205, 2021.

[5] Chu-En Lin, Yueh-Heng Lu, Meng-Ting Zhou, Chii-Chang Chen*, "Reconfigurable Electro-optical Logic Gates Using a 2-layer Multilayer Perceptron," Scientific Reports vol. 12, p. 14203, 2022.

[6] Chu-En Lin, Ching-Pao Sun, Chii-Chang Chen*,"Utilizing optical neural network to establish high-performance OR and XOR logic gates," Engineering Applications of Artificial Intelligence, vol. 119, p, 105788, 2023.

[7] Li-Yu Chen, Yi-Chun Chen, Jason C. Huang, Sophie Sok, Vincent Armbruster, Chii-Chang Chen*, "Brainwave implanted reservoir computing," AIP Advances, vol. 14, p. 015253, 2024.

[8] Chu-En Lin, Ya-Fan Chen, Ching-Pao Sun, and Chii-Chang Chen*, "A photonic integrated chip for distinguishing the optical wave packets based on a neural-network," Results in Physics, 1079822024.

[9] Da-You Ni, Meng-Ting Zhou, and Chii-Chang Chen*, "All-optical phase-controlled phase modulators," J. Opt. Soc. Am. B 42, 2824-2831, 2025.

[10] Meng-Ting Zhou, Chii-Chang Chen*, "Design of Electro-Optical Flip-Flop," Computer Optics, vol. 50, p. 1680, 2026.

 

光偏振轉換器:

[1] Chii-Chang Chen*, "Design of ultra-short polarization convertor with enhanced birefringence by photonic crystals," Results in Physics, vol. 24, p. 104138, 2021.

[2] Fu-Li Hsiao, Chia-Ying, Ni, Ying-Ping Tsai, Ting-Wei, Chiang, Yen-Tung, Yang, Cheng-Jui, Fan, Hsuan-Ming, Chang, Chien-Chung, Chen, Hsin-Feng, Lee, Bor- Shyh Lin, Kai-Chun, Chan, Chii-Chang Chen*, "Design of waveguide polarization convertor based on asymmetric 1D photonic crystals," Nanomaterials vol. 12, p. 2454, 2022.

[3] Li-Ying Liu, Hong-Chang Huang, Chu-Wen Chen, Fu-Li Hsiao, Yu-Chieh Cheng, Chii-Chang Chen*, "Design of Reflective Polarization Rotator in Silicon Waveguide," Nanomaterials, vol. 12, p. 3694, 2022.

[4] Guan-You Lu, Alexis P. A. Fischer, Chii-Chang Chen*, "Design of LiNbO3 polarization converters," Journal of Physics Communications, vol. 9, 095002, 2025.

 

奈米光學&光子晶體:

[1]Dong-Po Cai, Jyun-Hong Lu, Chii-Chang Chen*, Chien-Chieh Lee, Chu-En Lin,  Ta-Jen Yen, “High Q-factor microring resonator wrapped by the curved waveguide,”Scientific Reports, vol. 5, 10078, 2015.

[2]Jyun-Hong Lu, Dong-Po Cai, You-De Liao, Chii-Chang Chen*, Chu-En Lin*, Ta-Jen Yen, “Distribution of reflection spectrum for the photonic-crystal structure of Morpho butterfly wing under oblique incidence,” IET Optoelectronics, Vol. 11, p.242, 2017.

[3]Meng-Hua Yen, Pei-Yu Feng, Chu-En Lin, Chii-Chang Chen*, Jenq-Yang Chang, "Optimization of pulley-type ring resonator with waveguide offset," Micromachines, vol. 9, p. 226, 2018.

[4] Chu-En Lin, Chii-Chang Chen*, Jia-Hao Liu, Islam Laadjal, Alexis Fischer, "Pulley-type metallic microring surface plasmon polariton sensor based on Otto-configuration," Results in Physics vol. 12, pp. 1980-1983, 2019.

[5] Yu-Chieh Cheng*, Ya-Ju Chang, Yu-Ching Chuang, Bo-Zhi Huang, Chii-Chang Chen*, ”A plasmonic refractive index sensor with an ultrabroad dynamic sensing range,“ Scientific Reports vol. 9, 5134, 2019.

 

古典吉他:

[1] Kuan-Cheng Su, Tsung-Yu Hsieh, Wei-Chih Lin, Fu-Li Hsiao, Tatyana Ryzhkova, Chii-Chang Chen*, "Three-Dimensional Method for Analysis of the Body Mode of Classical Guitars Using a Laser Displacement Sensor," Sensors, vol. 24, p. 5147, 2024.

[2] Che-Hsu Yeh, Chii-Chang Chen*, "Tone transforms of classical guitars using impulse response and a laser displacement sensor," Sound & Vibration, vol. 60, p. 4106, 2026.

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