Your browser does not support JavaScript!
光電工程系
DEPARTMENT OF ELECTRO-OPTICAL ENGINEERING NATIONAL TAIPEI UNIVERSITY OF TECHNOLOGY

Category

數據載入中...
首頁 > 教師資料 > 徐巍峰
徐巍峰

Phone: 02)2771-2171 ext.4623
Fax: (02)8773-3216
Office:億光831室
E-mail: whsu@ntut.edu.tw
homepage:
Laboratory: 繞射光學暨光資訊處裡實驗室
徐巍峰 教授 in electro-optical engineering
  
 
 
最高學歷
美國南加州大學 信號暨影像處理研究所博士
 
現職及相關經歷

1.台北科技大學光電工程系副教授,94.8 ~104.1

2.台北科技大學光電工程系專任助理教授,90.8 ~94.7

3.私立大同大學光電工程研究所專任助理教授,87.8~90.7

4.工業技術研究院,85.8~87.7

 
授課課程

目前: 傅氏光學,繞射光學元件與應用,光電實驗(一)、(二)。

歷年: 幾何光學,線性代數,光纖原理與應用,光電工程概論,光電子學。

 
研究領域
  1. 繞射光學元件設計與應用
    1. 純量繞射理論
    2. 最佳化演算法: 遞迴傅立葉演算法、模擬退火法、基因演算法
    3. LCoS-SLM特性量測
  2. 雷射成像之研究
    1. ​遠場相位移微影
    2. 繞射式投影成像
    3. 雷射光斑量測和抑制
    4. 3D造影
  3. 晝光導引系統(太陽能應用)之研究
 
研究計劃
  1. 負相關光斑消除法之研究與應用實現(101-2221-E-027-102-),計畫主持人,國科會
  2. 以繞射光學元件抑制全畫幅式雷射投影器之光斑的應用和研究(100-2221-E-027-050-),計畫主持人,國科會
  3. 繞射式相位移光學微影技術之實現(96-2221-E-027-056-),計畫主持人,國科會
  4. 高中職科學教師尖端科技研究經驗培育計畫-高中職科學教師尖端光電科技研究經驗培育計畫(96-2514-S-027-001-MY3),共同主持人 ,國科會
  5. 遠場相位微影技術之研究(95-2221-E-027-088-),計畫主持人,國科會 
 
成果殊榮

1.   2013台北國際發明暨技術交易展, "繞射式雷射光板"。 (2013/9/26-29, 國科會科技創新館)

2.   Highlights of 2012, Journal of Optics, "Asymmetric and symmetric light couplers of daylighting systems for direct indoor lighting."

3.   2012台北國際發明暨技術交易展, "光斑雜訊降低方法及使用其之設備"。 (2012/9/20-23, 國科會科技創新館)

4.   國立台北科技大學電資學院100學年 電資學院傑出教學獎。

5.   國立台北科技大學電資學院99學年 年度傑出教學獎。

6.   國立台北科技大學電資學院98學年 年度傑出教學獎。

7.   國立台北科技大學電資學院96學年 年度傑出教學獎。

8.   國立台北科技大學機電學院94學年 年度傑出教學獎。  

 
期刊論文

(SCI publications)

  1. Wei-Feng Hsu* and Ming-Hong Weng, “Compact holographic projection display using liquid-crystal-on-silicon spatial light modulator,” Materials 2016, 9, 768. (SCIE: Materials Science, Multidisciplinary 63/271, IF: 2.728) (MOST 103-2221-E-027-035) doi:10.3390/ma9090768
  2. Yan-Shuo Chang, Wei-Feng Hsu*, Ku-Hui Hsu, and Hoang Yan Lin, "Full-frame projection displays using a liquid-crystal-on-silicon spatial light modulator for beam shaping and speckle suppression,"  Applied Optics 53, G214-G221, 2014. (SCI: Optics 29/82, IF: 1.649) (NSC 101-2221-E-027-102)  http://dx.doi.org/10.1364/AO.53.00G214
  3. Yan-Shuo Chang, Chia-Hsin Lin, Ku-Hui Hsu, Wei-Feng Hsu, Li-Jen Hsiao, and Hoang Yan Lin*, "Laser speckle reduction by phase range limited computer generated hologram in laser projection display system," Applied Optics 53, G157-G162, 2014. (SCI: Optics 29/82, IF: 1.649) http://dx.doi.org/10.1364/AO.53.00G157
  4. Wei-Feng Hsu* and Min-Chun Chou, "Optimizing the parameters for measuring laser speckle and speckle contrast," Applied Optics 53, E26-E32, 2014. (SCI: Optics 29/82, IF: 1.649) (NSC 101-2221-E-027-102)  http://dx.doi.org/10.1364/AO.53.000E26
  5. Wei-Feng Hsu*, Yun-Chiang Hsu, and Yi-Ta Shen, "Orthogonal incidence method for efficient sunlight collection from asymmetric light couplers in tree-structured light guiding systems," Applied Optics 52, 6332-6343, 2013. (SCI: Optics 29/82, IF: 1.649) (NSC 101-2221-E-027-102) http://dx.doi.org/10.1364/AO.52.006332
  6. Wei-Feng Hsu*, Yi-Ta Shen, and I-Lin Chu, "Asymmetric and symmetric light couplers of daylighting systems for direct indoor lighting," Journal of Optics 14, 2012, 125703. (SCI: Optics 21/79, IF: 1.990) doi:10.1088/2040-8978/14/12/125703
  7. Wei-Feng Hsu* and Chuan-Feng Yeh, "Speckle suppression in holographic projection displays using temporal integration of speckle images from diffractive optical elements," Applied Optics 50, H50-H55, 2011. (SCI: Optics 27/79, IF: 1.748) (NSC 100-2221-E-027-050) http://www.opticsinfobase.org/ao/abstract.cfm?URI=ao-50-34-H50
  8. Wei-Feng Hsu* and I-Lin Chu, "Speckle suppression by integrated sum of fully developed negatively correlated patterns in coherent imaging," Progresses In Electromagnetics Research B 34, 1-13, 2011. (SCI: Engineering, EE 3/245, IF: 5.298) http://www.jpier.org/pierb/pier.php?paper=11070601  
  9. Wei-Feng Hsu*, Yu-Weng Chen, and Yuan-Hong Su, "Implementation of phase-shift patterns using a holographic projection system with phase-only diffractive optical elements," Applied Optics 50, 3646-3652, 2011. (SCI: Optics 27/79, IF: 1.748) (NSC 95-2221-E-027-088) http://www.opticsinfobase.org/ao/abstract.cfm?URI=ao-50-20-3646
  10. Wei-Feng Hsu* and Chia-Hsuan Lin, "Optimal quantization method for uneven-phase diffractive optical elements by use of a modified iterative Fourier-transform algorithm," Applied Optics 44, 5802-5808, 2005. (SCI: Optics 17/55, IF: 1.637) http://www.opticsinfobase.org/ao/abstract.cfm?URI=ao-44-27-5802
  11. Wei-Feng Hsu*, "Backward iterative quantization methods for designs of multilevel diffractive optical elements," Optics Express 13, 5052-5063, 2005. (SCI: Optics 2/55, IF: 3.764) http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-13-13-5052
  12. Wei-Feng Hsu* and I-Lin Chu, "Optimal quantization by use of an amplitude-weighted probability-density function for diffractive optical elements," Applied Optics 43, 3672-3679, 2004. (SCI: Optics 14/54, IF: 1.799) http://www.opticsinfobase.org/ao/abstract.cfm?URI=ao-43-18-3672
  13. Sheng-Yuan Lin*, Wen-Hsin Chan, Wei-Feng Hsu, and Y. Tim Tsai, "Resolution characterization for digital still camera," IEEE Trans. Consumer Electronics 43 (3), pp. 732-736, August 1997. (SCI)
(EI publications) 
  1. Wei-Feng Hsu*, Chuan-Feng Yeh, and Min-Chun Chou, “Simulation and measurement of laser speckle and speckle contrast,” in Proceedings of SID 2012 Symposium, June 3-8, 2012, Boston, paper 61.3, pp. 830-833.
  2. Yan-Shuo Chang, Wei-Feng Hsu, and Hoang Yan Lin*, “Speckle contrast analysis at different locations in the image produced by a laser projection system,” in Proceedings of SID 2012 Symposium, June 5-8, 2012, Boston, paper P-129, pp. 1554-1557.
  3. Yan-Shuo Chang, Hoang Yan Lin*, and Wei-Feng Hsu, “Speckle suppression by 2D Spatial light modulator in laser projection system,” in Proceedings of SID 2011 Symposium, May 15-19, 2011, Los Angeles, paper 32.2, pp. 428-431.
  4. Wei-Feng Hsu*, Yu-Weng Chen, and Yuan-Hong Su, "Generation of phase-shift patterns in the optical far field and its applications," Holography and Diffractive Optics III, Proc. SPIE 6832, 68320J, 2008. doi:10.1117/12.757054
  5. Wei-Feng Hsu*  and Yuan-Hong Su, "Implementation of far-field phase-shift lithography using diffractive optical elements," Micromachining Technology for Micro-Optics and Nano-Optics V and Microfabrication Process Technology XII, Proc. SPIE 6462, 64621C, 2007. doi:10.1117/12.699950  
  6. Wei-Feng Hsu* and I-Lin Chu, "General phase quantization approach for diffractive optical elements," Advanced Photonic Sensors and Applications II, Proc. SPIE 4596, pp. 199-207, 2001.
  7. Wei-Feng Hsu* and Ching-Tsung Ni, "An efficiency optimization approach for two- wavelength diffractive optical elements," Advanced Photonic Sensors and Applications II, Proc. SPIE 4596, pp. 191-198, 2001.
  8. Wei-Feng Hsu*, Yun-Chiang Hsu, and Kai-Wei Chuang, "Measurement of the spatial frequency response (SFR) of digital still-picture cameras using a modified slanted edge method," Input/Output and Imaging Technologies II, Proc. SPIE 4080, pp. 96-103, 2000.
  9. Wei-Feng Hsu*, Kai-Wei Chuang, and Yun-Chiang Hsu, "Comparisons of the camera OECF, the ISO speed, and the SFR of digital still-picture cameras," Input/Output and Imaging Technologies II, Proc. SPIE 4080, pp. 104-111, 2000.
  10. Wei-Feng Hsu*, Shinn-Yih Tseng, Hwang-Cheng Chiang, Jui-His Cheng, and Yuan-Te Liu, "Performance measurement of commercial electronic still picture cameras," Input/Output and Imaging Technologies, Proc. SPIE 3422, pp. 92-98, 1998.

(Other peer-reviewed publications)

  1. 徐巍峰, "雷射光班之原理、量測、與抑制方法 (Theory, measurement, and suppression methods of laser speckles)," 光學工程123期,6-12,2013。
  2. Yun-Chiang Hsu, Yi-Ta Shen, and Wei-Feng Hsu*, “High-efficiency light couplers of sunlight guiding systems for indoor illumination,” International Journal of Engineering Inventions 2, 69-74, 2013. http://www.ijeijournal.com/papers/v2i6/J02066974.pdf
研討會論文
1. Yan-Shuo Chang, Hoang Yan Lin, Ku-Hui Hsu, and Wei-Feng Hsu*, “Speckle suppression by 2D spatial light modulator in full-frame laser projection displays,” in IWH 2012 Digests, November 12-14, 2012, Chung-Li, Taiwan, paper 14A3, pp.65-66.
2. Yi-Ta Shen, Chuan-Feng Yeh, Min-Chun Chou, and Wei-Feng Hsu*, “Simulation and measurement of speckle contrast of objective laser speckles,” in IWH 2012 Digests, November 12-14, 2012, Chung-Li, Taiwan, paper P33, pp.139-140.
3. Chung-Yi Liu, Chien-Hong Chen, and Wei-Feng Hsu*, “Effect of the pixel sizes when using an LCoS spatial light modulator as dynamic diffuser in coherent imaging systems,” in IWH 2012 Digests, November 12-14, 2012, Chung-Li, Taiwan, paper P34, pp.141-142.
4. Wei-Feng Hsu*, Chuan-Feng Yeh, and Min-Chun Chou, “Simulation and measurement of laser speckle and speckle contrast,” in Proceedings of SID 2012 Symposium, June 3-8, 2012, Boston, paper 61.3, pp. 830-833.
5. Yan-Shuo Chang, Wei-Feng Hsu, and Hoang Yan Lin*, “Speckle contrast analysis at different locations in the image produced by a laser projection system,” in Proceedings of SID 2012 Symposium, June 5-8, 2012, Boston, paper P-129, pp. 1554-1557.
6. Wei-Feng Hsu* and Chuan-Feng Yeh, “Speckle suppression in holographic projection displays by temporal integration of diffractive optical elements,” in Digital Holography and Three-Dimensional Imaging, OSA Technical Digest (CD) (Optical Society of America, 2011), paper DTuC4. http://www.opticsinfobase.org/abstract.cfm?URI=DH-2011-DTuC4
7. Yan-Shuo Chang, Hoang Yan Lin*, and Wei-Feng Hsu, “Speckle suppression by 2D Spatial light modulator in laser projection system,” in Proceedings of SID 2011 Symposium, May 15-19, 2011, Los Angeles, paper 32.2, pp. 428-431.
8. Yu-Wen Chen, Wei-Feng Hsu*, and Sidney S. Yang, “Implementation of phase-shift patterns with subdiffraction-limit features by use of diffractive optical elements,” in Laser Science, OSA Technical Digest (CD) (Optical Society of America, 2010), paper JTuA11. http://www.opticsinfobase.org/abstract.cfm?URI=LS-2010-JTuA11
9. Wei-Feng Hsu* and Chuan-Feng Yeh, “A novel laser projection system by use of the beam- shaping method to reduce the speckle phenomenon,” in IDMC/3DSA/Asia Display 2009, Taipei, Taiwan, April 27-30, 2009, paper Wed-P3-08.
10. Wei-Feng Hsu and Chia-Hung Lin, “A fast-convergent global-search method for designs of phase-only computer-generated holograms,” in Frontiers in Optics, OSA Technical Digest (CD) (Optical Society of America, 2008), paper FThV5. http://www.opticsinfobase.org/abstract.cfm?URI=FiO-2008-FThV5
11. Yu-Weng Chen, Yang-Chih Chiu, and Wei-Feng Hsu, “Design of the far-field phase-shift patterns using the iterative quantization methods,” in 6th International Conference on Optics-photonics Design and Fabrication (ODF'08), Taipei, Taiwan, June 9-11, 2008, Paper10PS-038.
12. Wei-Feng Hsu and I-Lin Chu, “Design of the one-dimensional far-field phase-shift patterns by the detour-phase diffractive optical elements,” in 6th International Conference on Optics-photonics Design and Fabrication (ODF'08), Taipei, Taiwan, June 9-11, 2008, Paper 10PS-039.
13. Wei-Feng Hsu and Yuan-Hong Su, “A far-field implementation of near-field phase-shift lithography using diffractive optical elements,” in Frontiers in Optics, OSA Technical Digest (CD) (Optical Society of America, 2006), paper FMC4. http://www.opticsinfobase.org/abstract.cfm?URI=FiO-2006-FMC4
14. Wei-Feng Hsu, Chih-Ming Lin, and Tsai-Chun Hou, “Dilemmas of using the genetic algorithm in the design of diffractive optical elements,” in the 11th OptoElectronics and Communications Conference (OECC 2006), Kaohsiung, Taiwan, R.O.C., July 3-7, 2006, Paper 4P-028.
15. Ku-Hui Hsu, Jen-Chih Tsai, and Wei-Feng Hsu, “Multiple-perturbation simulated annealing algorithm for diffractive optical elements,” in the 11th OptoElectronics and Communications Conference (OECC 2006), Kaohsiung, Taiwan, R.O.C., July 3-7, 2006, Paper 4P-029.
16. Wei-Feng Hsu, Yuan-Hong Su, and Hsiang-Yu Wang, “Design of far-field implementation of near-field phase-shift patterns,” in the 11th OptoElectronics and Communications Conference (OECC 2006), Kaohsiung, Taiwan, R.O.C., July 3-7, 2006, Paper 4P-031.
17. Wei-Feng Hsu, “Backward iterative quantization methods for phase optimization of multilevel diffractive optical elements,” in Diffractive Optics 2005 (DO 2005), Warsaw, Poland, 3-7 September 2005, paper L-021.
18. Ku-Hui Hsu and Wei-Feng Hsu, “Designs of multilevel diffractive optical elements using a simulated annealing algorithm with multiple perturbations,” in Diffractive Optics 2005 (DO 2005), Warsaw, Poland, 3-7 September 2005, Paper P-006.
19. Wei-Feng Hsu, Chao-Siang Yang, and Chuan-Yu Luo, “A novel implementation of laser machining using diffractive optical elements,” in The 5th Pacific Rim Conference on Laser and Electro-Optics (CLEO/Pacific Rim 2003), Taipei, Taiwan, R.O.C., December 15-19, 2003, Vol. 2/2, p. 740 (Paper F2F).
20. Wei-Feng Hsu and I-Lin Chu, “Using the amplitude-phase quantization method to design the phase-only diffractive optical elements incident by a light beam with non-uniform intensity profile,” in OSA Annual Meeting & Exhibit 2002, Orlando, Florida, Sep. 29–Oct. 2, 2002.
21.Wei-Feng Hsu, Ching-Tsung Ni, and Wei-Bin Hsu, "Design of diffractive optical elements for generation of irregular color patterns," 2002 International Topical Meeting on Optics in Computing Technical Digest, pp. 218-220, Taipei, Taiwan, R.O.C., April 8-11, 2002.
22.Wei-Feng Hsu, Yun-Chiang Hsu, I-Lin Chu, and Jing-Hua Wu, "Optimized Quantization Method for Uneven-Phase-Level Diffractive Phase Elements with Nonuniform Illumination," 2002 International Topical Meeting on Optics in Computing Technical Digest, pp. 394-397, Taipei, Taiwan, R.O.C., April 8-11, 2002.
 
專書
 
 
專利
1.   光斑雜訊降低方法及使用其之設備,證書號數: TW I453466 B,中華民國發明專利,徐巍峰、朱翊麟,公告日:103/9/21
 
技術報告
1.徐巍峰, 葉玉莉, 劉鈞安, 「數位影像量測系統設計技術報告」, 工業技術研究院 光電研究所, 新竹縣, 台灣, 中華民國, June 1998.
2.徐巍峰, 林昇源, 「數位相機空間解析度之測量 (Resolution characterization for digital still cameras),」 Report # 083860081, 工業技術研究院 光電研究所, 新竹縣, 台灣, 中華民國, June 1997.
3.Wei-Feng Hsu, "Parallel Data Access Schemes and Applications," USC Technical Report, April 1994.