參考文獻 |
[1] T. Marshall and M. Pashley, “LED COLLIMATION OPTICS WITH IMPROVED PERFORMANCE AND REDUCED SIZE,” United States Pat. 6547423, vol. 2, 2003.
[2] J.-J. Chen, “Freeform surface design for a light-emitting diode–based collimating lens,” Opt. Eng., vol. 49, pp. 093001–093001–8, Sep. 2010.
[3] P. Benitez, J. Miñano, and F. Muñoz, “COMPACT FOLDED-OPTICS ILLUMINATION LENS,” US Pat. 7,181,378, vol. 2, 2005.
[4] F. Muñoz, “Simultaneous multiple surface design of compact air-gap collimators for light-emitting diodes,” Opt. Eng., vol. 43, pp.1522, Jul. 2004.
[5] C. Li, “LED LIGHT SOURCE WITH LIGHT REFRACTOR AND REFLECTOR,” US Pat. 7,922,366, vol. 2, 2011.
[6] E. Rodríguez-Vidal, D. Otaduy, D. Ortiz, F. González, F. Moreno, and J. M. Saiz, “Optical performance of a versatile illumination system for high divergence LED sources,” Opt. - Int. J. Light Electron Opt., vol. 125, pp. 1657–1662, Mar. 2014.
[7] E. Hecht, Optics 4th edition, vol. 1. 2001, pp. 122.
[8] T. L. Saaty, “Decision making with the analytic hierarchy process,” Int. J. Serv. Sci., vol. 1, pp. 83, 2008.
[9] P. Description, “Cree XLamp CXA3070 LED,” pp. 1–17, 2014.
[10] A. García-Botella, D. Vázquez, and E. Bernabeu, “Geometric and thermal design for a new concentrator-collimator lighting system based on LED technology,” Metrologia, vol. 607, 2000.
[11] G. Bourdet, I. Hassiaoui, and R. McBride, “High-power, low-divergence, linear array of quasi-diffraction-limited beams supplied by tapered diodes,” Appl. Opt., vol. 46, pp. 6297–6301, 2007.
[12] J. C. Miñano, P. Benítez, J. Liu, J. Infante, J. Chaves, and L. Wang, “Applications of the SMS method to the design of compact optics,” Opt. Model. Des., vol. 7717, pp. 77170I–77170I–8, Apr. 2010.
[13] 陳漢昭, “Applying Grey Relation Analysis On Financial Risk Assessment -A Case Study For Listed,” 國 立 中 央 大 學 財務金融 碩 士 論 文.
[14] S. Wang, L. Zhang, Z. He, and M. Li, “The Secondary Optical Design of LED LED,” vol. 2013, no. December, pp. 39–44, 2013.
[15] 彭偉捷, “高功率 LED 之歐規汽車近光燈設計,” 國 立 中 央 大 學 光 電 科 學 與 工 程 學 系 碩 士 論 文, 2005.
[16] 羅翊戩, “高功率 LED 照明之二次光學設計效率的研究,” 中央大學光電科學研究所博士論文, 2011.
[17] 蔡旭極, “高功率多晶 LED 低眩光投射燈之設計,” 國 立 中 央 大 學 光 電 科 學 與 工 程 學 系 碩 士 論 文, 2011.
[18] S. Zhao, K. Wang, F. Chen, D. Wu, and S. Liu, “Lens design of LED searchlight of high brightness and distant spot.,” J. Opt. Soc. Am. A. Opt. Image Sci. Vis., vol. 28, pp. 815–820, May 2011.
[19] S. Kudaev and P. Schreiber, “Optimization of symmetrical free-shape non-imaging concentrators for LED ligft source applications,” Nonimaging Opyics Effic. Illum. Syst., vol. 5942, pp. 594209–594209–10, Aug. 2005.
[20] A Rabl and J. M. Gordon, “Reflector design for illumination with extended sources: the basic solutions.,” Appl. Opt., vol. 33, pp. 6012–6021, Sep. 1994.
[21] A. Pawlak and K. Zaremba, “Reflector luminaire with high power light-emitting diodes for general lighting,” Appl. Opt., vol. 47, pp. 467, Jan. 2008.
[22] C. Peng, X. Li, P. Zhang, L. Xiong, and X. Liu, “RGB High Brightness LED Modules for Projection,” J. Disp. Technol., vol. 7, pp. 448–453, 2011.
[23] E. Chen and F. Yu, “Design of LED-based reflector-array module for specific illuminance distribution,” Opt. Commun., vol. 289, pp. 19–27, Feb. 2013.
[24] C. Chen and X. Zhang, “Design of optical system for collimating the light of an LED uniformly.,” J. Opt. Soc. Am. A. Opt. Image Sci. Vis., vol. 31, pp. 1118–1125, May 2014.
|