H. Nishi, K. Higashi, Y. Arima, K. Matsushima, and S. Nakahara, “New techniques for wave-field rendering of polygon-based high-definition CGHs,” Proc. SPIE0277-786X7957, 79571A (2011).

K. Matsushima and A. Kondoh, “A wave-optical algorithm for hidden-surface removal in digitally synthetic full-parallax holograms for three-dimensional objects,” Proc. SPIE0277-786X5290, 90–97 (2004).

Y. Sakamoto and Y. Yamashita, “An algorithm for object-light calculation considering reflectance distribution for computer-generated holograms,” J. Inst. Image Inf. Television Eng.56, 611–616 (2002).

R. L. Cook and K. E. Torrance, “A reflectance model for computer graphics,” ACM Trans. Graph.1, 7–24 (1982).0730-0301

[CrossRef]

J. F. Blinn, “Models of light reflection for computer synthesized pictures,” Comp. Graphics0097-893011, 192–198 (1977).

B. T. Phong, “Illumination for computer generated pictures,” Commun. ACM18, 311–317 (1975).0001-0782

[CrossRef]

J. P. Waters, “Holographic image synthesis utilizing theoretical methods,” Appl. Phys.9, 405–407 (1966).0340-3793

H. Nishi, K. Higashi, Y. Arima, K. Matsushima, and S. Nakahara, “New techniques for wave-field rendering of polygon-based high-definition CGHs,” Proc. SPIE0277-786X7957, 79571A (2011).

J. F. Blinn, “Models of light reflection for computer synthesized pictures,” Comp. Graphics0097-893011, 192–198 (1977).

R. L. Cook and K. E. Torrance, “A reflectance model for computer graphics,” ACM Trans. Graph.1, 7–24 (1982).0730-0301

[CrossRef]

H. Nishi, K. Higashi, Y. Arima, K. Matsushima, and S. Nakahara, “New techniques for wave-field rendering of polygon-based high-definition CGHs,” Proc. SPIE0277-786X7957, 79571A (2011).

K. Matsushima and A. Kondoh, “A wave-optical algorithm for hidden-surface removal in digitally synthetic full-parallax holograms for three-dimensional objects,” Proc. SPIE0277-786X5290, 90–97 (2004).

H. Nishi, K. Higashi, Y. Arima, K. Matsushima, and S. Nakahara, “New techniques for wave-field rendering of polygon-based high-definition CGHs,” Proc. SPIE0277-786X7957, 79571A (2011).

K. Matsushima, “Shifted angular spectrum method for off-axis numerical propagation,” Opt. Express18, 18453–18463 (2010).1094-4087

[CrossRef]

K. Matsushima, “Computer-generated holograms for three-dimensional surface objects with shade and texture,” Appl. Opt.44, 4607–4614 (2005).0003-6935

[CrossRef]

K. Matsushima and A. Kondoh, “A wave-optical algorithm for hidden-surface removal in digitally synthetic full-parallax holograms for three-dimensional objects,” Proc. SPIE0277-786X5290, 90–97 (2004).

H. Nishi, K. Higashi, Y. Arima, K. Matsushima, and S. Nakahara, “New techniques for wave-field rendering of polygon-based high-definition CGHs,” Proc. SPIE0277-786X7957, 79571A (2011).

H. Nishi, K. Higashi, Y. Arima, K. Matsushima, and S. Nakahara, “New techniques for wave-field rendering of polygon-based high-definition CGHs,” Proc. SPIE0277-786X7957, 79571A (2011).

B. T. Phong, “Illumination for computer generated pictures,” Commun. ACM18, 311–317 (1975).0001-0782

[CrossRef]

Y. Sakamoto and A. Tsuruno, “A representation method for object surface glossiness in computer-generated hologram,” IEICE Trans. Inf. Syst.0916-85322, 2046–2053 (2005).

J. P. Waters, “Holographic image synthesis utilizing theoretical methods,” Appl. Phys.9, 405–407 (1966).0340-3793

Y. Sakamoto and Y. Yamashita, “An algorithm for object-light calculation considering reflectance distribution for computer-generated holograms,” J. Inst. Image Inf. Television Eng.56, 611–616 (2002).

R. L. Cook and K. E. Torrance, “A reflectance model for computer graphics,” ACM Trans. Graph.1, 7–24 (1982).0730-0301

[CrossRef]

K. Yamaguchi and Y. Sakamoto, “Computer generated hologram with characteristics of reflection: reflectance distributions and reflected images,” Appl. Opt.48, H203–H211 (2009).0003-6935

[CrossRef]

K. Matsushima, “Computer-generated holograms for three-dimensional surface objects with shade and texture,” Appl. Opt.44, 4607–4614 (2005).0003-6935

[CrossRef]

H. Kim, J. Hahn, and B. Lee, “Mathematical modeling of triangle-mesh-modeled three-dimensional surface objects for digital holography,” Appl. Opt.47, D117–D127 (2008).0003-6935

[CrossRef]

J. P. Waters, “Holographic image synthesis utilizing theoretical methods,” Appl. Phys.9, 405–407 (1966).0340-3793

B. T. Phong, “Illumination for computer generated pictures,” Commun. ACM18, 311–317 (1975).0001-0782

[CrossRef]

J. F. Blinn, “Models of light reflection for computer synthesized pictures,” Comp. Graphics0097-893011, 192–198 (1977).

Y. Sakamoto and A. Tsuruno, “A representation method for object surface glossiness in computer-generated hologram,” IEICE Trans. Inf. Syst.0916-85322, 2046–2053 (2005).

Y. Sakamoto and Y. Yamashita, “An algorithm for object-light calculation considering reflectance distribution for computer-generated holograms,” J. Inst. Image Inf. Television Eng.56, 611–616 (2002).

H. Nishi, K. Higashi, Y. Arima, K. Matsushima, and S. Nakahara, “New techniques for wave-field rendering of polygon-based high-definition CGHs,” Proc. SPIE0277-786X7957, 79571A (2011).

K. Matsushima and A. Kondoh, “A wave-optical algorithm for hidden-surface removal in digitally synthetic full-parallax holograms for three-dimensional objects,” Proc. SPIE0277-786X5290, 90–97 (2004).