Y. Ding and P. F. Gu, “The Freeform Reflector for Uniform Illumination,” Acta Optica Sinica 27, 540–544 (2007).

M. Shen, H. F. Li, W. Lu, and X. Liu, “Method of reflective fly eye lens design for LED illuminating projection system,” Acta Photonica Sinica 35, 93–95 (2006).

B. Parkyn and D. Pelka, “Free-form illumination lens designed by a pseudo-rectangular lawnmower algorithm,” Proc. SPIE 6338, 633808 (2005).

[Crossref]

Y. Z. Wang and L. J. Chen, “A real-time NURBS surface interpolator for 5-axis surface machining,” Chinese Journal of Aeronautics 18, 263–272 (2005).

[Crossref]

P. Zhou, W. Lu, Y. X. Lin, Z. R. Zheng, H. F. Li, and P. F. Gu, “Fly eye lens array used in liquid crystal projection display with high light efficiency,” Acta Optica Sinica 24, 587–591 (2004).

B. A. Jacobson and R. D. Gengelbach, “Lens for uniform LED illumination: an example of automated optimization using Monte Carlo ray-tracing of an LED source,” Proc. SPIE 4446, 130–138 (2002).

H. Ries and J. Muschaweck, “Tailored freeform optical surfaces,” J. Opt. Soc. Am. A 19, 590–595 (2002).

[Crossref]

H. Chase, “Optical Design with Rotationally Symmetric NURBS,” Proc. SPIE 4832, 10–24 (2002).

[Crossref]

T. L. R. Davenport, “3D NURBS representation of surface for illumination,” Proc. SPIE 4832, 293–301 (2002).

[Crossref]

H. Ries and J. Muschaweck, “Tailoring freeform lenses for illumination,” Proc. SPIE 6338, 633808 (2001).

J. Bortz, N. Shatz, and D. Pitou, “Optimal design of a nonimaging projection lens for use with an LED source and a rectangular target,” Proc. SPIE 4092, 130–138 (2000).

[Crossref]

W. A. Parkyn, “Segmented illumination lenses for steplighting and wall-washing,” Proc. SPIE 3779, 363–370 (1999).

[Crossref]

J. Schruben, “Formulation of a reflector design problem for a lighting fixture,” J. Opt. Soc. Am 62, 1498–1501 (1972).

[Crossref]

J. Bortz, N. Shatz, and D. Pitou, “Optimal design of a nonimaging projection lens for use with an LED source and a rectangular target,” Proc. SPIE 4092, 130–138 (2000).

[Crossref]

H. Chase, “Optical Design with Rotationally Symmetric NURBS,” Proc. SPIE 4832, 10–24 (2002).

[Crossref]

Y. Z. Wang and L. J. Chen, “A real-time NURBS surface interpolator for 5-axis surface machining,” Chinese Journal of Aeronautics 18, 263–272 (2005).

[Crossref]

W. H. Chen, Introduction of Differential Geometry (Beijing University, 1990), Chap. 4.

T. L. R. Davenport, “3D NURBS representation of surface for illumination,” Proc. SPIE 4832, 293–301 (2002).

[Crossref]

T. L. R. Davenport, “Generation of NC Tool Path for Subdivision Surface,” in Proceedings of CAD/Graphics 2001, Q. Peng, ed. (International Academic, Kunming, China, 2001), pp. 1–7.

Y. Ding and P. F. Gu, “The Freeform Reflector for Uniform Illumination,” Acta Optica Sinica 27, 540–544 (2007).

Y. Ding, X. Liu, H. F. Li, and P. F. Gu, “The design of the freeform reflector for uniform illumination,” in Proceedings of Asia Display 2007, Volume 1. (Shanghai, China, 2007), pp. 735–738.

B. A. Jacobson and R. D. Gengelbach, “Lens for uniform LED illumination: an example of automated optimization using Monte Carlo ray-tracing of an LED source,” Proc. SPIE 4446, 130–138 (2002).

Y. Ding and P. F. Gu, “The Freeform Reflector for Uniform Illumination,” Acta Optica Sinica 27, 540–544 (2007).

P. Zhou, W. Lu, Y. X. Lin, Z. R. Zheng, H. F. Li, and P. F. Gu, “Fly eye lens array used in liquid crystal projection display with high light efficiency,” Acta Optica Sinica 24, 587–591 (2004).

Y. Ding, X. Liu, H. F. Li, and P. F. Gu, “The design of the freeform reflector for uniform illumination,” in Proceedings of Asia Display 2007, Volume 1. (Shanghai, China, 2007), pp. 735–738.

B. A. Jacobson and R. D. Gengelbach, “Lens for uniform LED illumination: an example of automated optimization using Monte Carlo ray-tracing of an LED source,” Proc. SPIE 4446, 130–138 (2002).

M. Shen, H. F. Li, W. Lu, and X. Liu, “Method of reflective fly eye lens design for LED illuminating projection system,” Acta Photonica Sinica 35, 93–95 (2006).

P. Zhou, W. Lu, Y. X. Lin, Z. R. Zheng, H. F. Li, and P. F. Gu, “Fly eye lens array used in liquid crystal projection display with high light efficiency,” Acta Optica Sinica 24, 587–591 (2004).

Y. Ding, X. Liu, H. F. Li, and P. F. Gu, “The design of the freeform reflector for uniform illumination,” in Proceedings of Asia Display 2007, Volume 1. (Shanghai, China, 2007), pp. 735–738.

P. Zhou, W. Lu, Y. X. Lin, Z. R. Zheng, H. F. Li, and P. F. Gu, “Fly eye lens array used in liquid crystal projection display with high light efficiency,” Acta Optica Sinica 24, 587–591 (2004).

M. Shen, H. F. Li, W. Lu, and X. Liu, “Method of reflective fly eye lens design for LED illuminating projection system,” Acta Photonica Sinica 35, 93–95 (2006).

Y. Ding, X. Liu, H. F. Li, and P. F. Gu, “The design of the freeform reflector for uniform illumination,” in Proceedings of Asia Display 2007, Volume 1. (Shanghai, China, 2007), pp. 735–738.

M. Shen, H. F. Li, W. Lu, and X. Liu, “Method of reflective fly eye lens design for LED illuminating projection system,” Acta Photonica Sinica 35, 93–95 (2006).

P. Zhou, W. Lu, Y. X. Lin, Z. R. Zheng, H. F. Li, and P. F. Gu, “Fly eye lens array used in liquid crystal projection display with high light efficiency,” Acta Optica Sinica 24, 587–591 (2004).

B. Parkyn and D. Pelka, “Free-form illumination lens designed by a pseudo-rectangular lawnmower algorithm,” Proc. SPIE 6338, 633808 (2005).

[Crossref]

W. A. Parkyn, “Segmented illumination lenses for steplighting and wall-washing,” Proc. SPIE 3779, 363–370 (1999).

[Crossref]

B. Parkyn and D. Pelka, “Free-form illumination lens designed by a pseudo-rectangular lawnmower algorithm,” Proc. SPIE 6338, 633808 (2005).

[Crossref]

J. Bortz, N. Shatz, and D. Pitou, “Optimal design of a nonimaging projection lens for use with an LED source and a rectangular target,” Proc. SPIE 4092, 130–138 (2000).

[Crossref]

J. Schruben, “Formulation of a reflector design problem for a lighting fixture,” J. Opt. Soc. Am 62, 1498–1501 (1972).

[Crossref]

J. Bortz, N. Shatz, and D. Pitou, “Optimal design of a nonimaging projection lens for use with an LED source and a rectangular target,” Proc. SPIE 4092, 130–138 (2000).

[Crossref]

M. Shen, H. F. Li, W. Lu, and X. Liu, “Method of reflective fly eye lens design for LED illuminating projection system,” Acta Photonica Sinica 35, 93–95 (2006).

Y. C. Su and Q. G. Wu, Numerical Solutions of Partial Differential Equations (Weather, 1989), Chap. 1.

Y. Z. Wang and L. J. Chen, “A real-time NURBS surface interpolator for 5-axis surface machining,” Chinese Journal of Aeronautics 18, 263–272 (2005).

[Crossref]

Y. C. Su and Q. G. Wu, Numerical Solutions of Partial Differential Equations (Weather, 1989), Chap. 1.

P. Zhou, W. Lu, Y. X. Lin, Z. R. Zheng, H. F. Li, and P. F. Gu, “Fly eye lens array used in liquid crystal projection display with high light efficiency,” Acta Optica Sinica 24, 587–591 (2004).

P. Zhou, W. Lu, Y. X. Lin, Z. R. Zheng, H. F. Li, and P. F. Gu, “Fly eye lens array used in liquid crystal projection display with high light efficiency,” Acta Optica Sinica 24, 587–591 (2004).

P. Zhou, W. Lu, Y. X. Lin, Z. R. Zheng, H. F. Li, and P. F. Gu, “Fly eye lens array used in liquid crystal projection display with high light efficiency,” Acta Optica Sinica 24, 587–591 (2004).

Y. Ding and P. F. Gu, “The Freeform Reflector for Uniform Illumination,” Acta Optica Sinica 27, 540–544 (2007).

M. Shen, H. F. Li, W. Lu, and X. Liu, “Method of reflective fly eye lens design for LED illuminating projection system,” Acta Photonica Sinica 35, 93–95 (2006).

Y. Z. Wang and L. J. Chen, “A real-time NURBS surface interpolator for 5-axis surface machining,” Chinese Journal of Aeronautics 18, 263–272 (2005).

[Crossref]

J. Schruben, “Formulation of a reflector design problem for a lighting fixture,” J. Opt. Soc. Am 62, 1498–1501 (1972).

[Crossref]

W. A. Parkyn, “Segmented illumination lenses for steplighting and wall-washing,” Proc. SPIE 3779, 363–370 (1999).

[Crossref]

H. Chase, “Optical Design with Rotationally Symmetric NURBS,” Proc. SPIE 4832, 10–24 (2002).

[Crossref]

T. L. R. Davenport, “3D NURBS representation of surface for illumination,” Proc. SPIE 4832, 293–301 (2002).

[Crossref]

J. Bortz, N. Shatz, and D. Pitou, “Optimal design of a nonimaging projection lens for use with an LED source and a rectangular target,” Proc. SPIE 4092, 130–138 (2000).

[Crossref]

B. A. Jacobson and R. D. Gengelbach, “Lens for uniform LED illumination: an example of automated optimization using Monte Carlo ray-tracing of an LED source,” Proc. SPIE 4446, 130–138 (2002).

B. Parkyn and D. Pelka, “Free-form illumination lens designed by a pseudo-rectangular lawnmower algorithm,” Proc. SPIE 6338, 633808 (2005).

[Crossref]

H. Ries and J. Muschaweck, “Tailoring freeform lenses for illumination,” Proc. SPIE 6338, 633808 (2001).

W. H. Chen, Introduction of Differential Geometry (Beijing University, 1990), Chap. 4.

Y. C. Su and Q. G. Wu, Numerical Solutions of Partial Differential Equations (Weather, 1989), Chap. 1.

Lumileds LED technical data sheet, “Luxeon star technical data sheet” (Lumileds, 2006). http://www.lumileds.com/pdfs/DS23.pdf.

T. L. R. Davenport, “Generation of NC Tool Path for Subdivision Surface,” in Proceedings of CAD/Graphics 2001, Q. Peng, ed. (International Academic, Kunming, China, 2001), pp. 1–7.

Precitech product features, “Freeform 700G” (Precitech, 2006). http://www.precitech.com/Precitech_ff700G_features.html.

Y. Ding, X. Liu, H. F. Li, and P. F. Gu, “The design of the freeform reflector for uniform illumination,” in Proceedings of Asia Display 2007, Volume 1. (Shanghai, China, 2007), pp. 735–738.