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H. Choi, J. Kim, S.-W. Cho, Y. Kim, J. B. Park, and B. Lee (2008) Three-dimensional-two-dimensional mixed display system using integral imaging with an active pinhole array on a liquid crystal panel, Appl. Opt. 47: 2207-2214.
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J.-H. Jung, Y. Kim, Y. Kim, J. Kim, K. Hong, and B. Lee (2009) Integral imaging system using an electroluminescent film backlight for three-dimensional-two-dimensional convertibility and a curved structure, Appl. Opt. 48: 998-1007.
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Y. Kim, H. Choi, S.-W. Cho, Y. Kim, J. Kim, G. Park, and B. Lee (2007) Three-dimensional integral display using plastic optical fibers,Y. Kim, H. Choi, S.-W. Cho, Y. Kim, J. Kim, G. Park, and B. Lee (2007) Three-dimensional integral display using plastic optical fibers, Appl. Opt. 46: 7149-7154.
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J. Kim, S.-W. Min, Y. Kim, and B. Lee (2008) Analysis on viewing characteristics of integral floating system, Appl. Opt. 47: D80-D86.
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Y. Kim, J. Kim, Y. Kim, H. Choi, J.-H. Jung, and B. Lee (2008) Thin-type integral imaging method with an organic light emitting diode panel, Appl. Opt. 47: 4927-4934.
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J.-H. Park, J. Kim, Y. Kim, and B. Lee (2005) Resolution enhanced three-dimensional/two-dimension convertible display based on integral imaging, Opt. Express. 13: 1875-1884.
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H. Choi, S.-W. Cho, J. Kim, and B. Lee (2006) A thin 3D-2D convertible integral imaging system using a pinhole array on a polarizer, Opt. Express. 14: 5183-5190.
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S.-W. Cho, J.-H. Park, Y. Kim, H. Choi, J. Kim, and B. Lee (2006) Convertible two-dimensional-threedimensional display using an LED array based on modified integral imaging, Opt. Lett. 31: 2852-2854.
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Y. Kim, H. Choi, J. Kim, S.-W. Cho, Y. Kim, G. Park, and B.Lee (2007) Depth-enhanced integral imaging display system with electrically variable image planes using polymer dispersed liquid-crystal layers, Appl. Opt. 46: 3766-3773.
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S.-W. Min, M. Hahn, J. Kim, and B. Lee (2005) Three dimensional electro-floating display system using an integral imaging method, Opt. Express. 13: 4358-4369.
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J.-H. Park, H.-R. Kim, Y. Kim, J. Kim, J. Hong, S.-D. Lee, and B. Lee (2004) Depth-enhanced threedimensional- two dimensional convertible display based on modified integral imaging, Opt. Lett. 29: 2734-2736.
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ScienceOn
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B. Lee, S. Jung, S.-W. Min, and J.-H. Park (2001) Three-dimensional display by use of integral photography with dynamically variable image planes, Opt. Lett. 26: 1481-1482.
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G. Lippmann (1908) Epreuves reversible donnant la sensation du relief, J. Phys. 7: 821-825
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J.-H. Park, S. Jung, H. Choi, and B. Lee (2003) Integral imaging with multiple image planes using a uniaxial crystal plate, Opt. Express. 11: 1862-1875.
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J. Hong, J.-H. Park, S. Jung, and B. Lee (2004) A depth enhanced integral imaging by use of optical path control, Opt. Lett. 29: 1790-1792.
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Y. Kim, J.-H. Park, H. Choi, J. Kim, S.-W. Cho, and B. Lee (2006) Depth-enhanced three-dimensional integral imaging by use of multilayered display devices, Appl. Opt. 45: 4334-4343.
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F. Okano, H. Hoshino, J. Arai, and I. Yuyama (1997) Realtime pickup method for a three-dimensional image based on integral photography, Appl. Opt. 36: 1598-1603.
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Y. Kim, J.-H. Park, H. Choi, S. Jung, S.-W, Min, and B. Lee (2004) Viewing-angle-enhanced integral imaging system using a curved lens array, Opt. Express. 12: 421-429.
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B. Lee, S. Jung, and J.-H. Park (2002) Viewing-angle enhanced integral imaging by lens switching, Opt. Lett. 27: 818-820.
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