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Multi-viewer tracking integral imaging system and its viewing zone analysis.
Park, Gilbae,Jung, Jae-Hyun,Hong, Keehoon,Kim, Yunhee,Kim, Young-Hoon,Min, Sung-Wook,Lee, Byoungho Optical Society of America 2009 Optics express Vol.17 No.20
<P>We propose a multi-viewer tracking integral imaging system for viewing angle and viewing zone improvement. In the tracking integral imaging system, the pickup angles in each elemental lens in the lens array are decided by the positions of viewers, which means the elemental image can be made for each viewer to provide wider viewing angle and larger viewing zone. Our tracking integral imaging system is implemented with an infrared camera and infrared light emitting diodes which can track the viewers' exact positions robustly. For multiple viewers to watch integrated three-dimensional images in the tracking integral imaging system, it is needed to formulate the relationship between the multiple viewers' positions and the elemental images. We analyzed the relationship and the conditions for the multiple viewers, and verified them by the implementation of two-viewer tracking integral imaging system.</P>
Elimination of image discontinuity in integral floating display by using adaptive image mapping
Kim, Joohwan,Park, Gilbae,Kim, Younghoon,Min, Sung-Wook,Lee, Byoungho The Optical Society 2009 Applied Optics Vol.48 No.34
<P>We propose an adaptive image mapping method that removes image discontinuity, which is the main degradation factor of image quality in an integral floating display. The proposed method is based on a newly modified image mapping algorithm that removes image discontinuity for an observer at a specific location. By taking advantage of an eye tracking scheme, the modified algorithm can produce a floating 3D image in real time for moving observers as well. The observable area of the proposed system is analyzed, and we show that multiple observers in the area can view floating 3D images without interfering with one another's views. The effect of tracking error on the floating 3D image is analyzed, and a strategy to deal with it is also given.</P>
Kim, Yunhee,Park, Gilbae,Jung, Jae-Hyun,Kim, Joohwan,Lee, Byoungho The Optical Society 2009 Applied optics Vol.48 No.11
<P>We propose a color moiré pattern simulation and analysis method in integral imaging for finding the moiré-reducing tilted angle of a lens array. According to the tilted angle, the color moiré patterns are simulated on the assumption of ray optics. The spatial frequencies of the color moiré patterns are numerically analyzed using a spatial Fourier transform for finding the optimal angle where the moiré is reduced. With the proposed technique the visualization of the color moiré pattern and its analysis are enabled. The moiré-reduced three-dimensional images can be displayed. The principle of the proposed method, simulation results, and their analysis are provided. Experimental results verify the validity of the proposed method.</P>
A full-color anaglyph three-dimensional display system using active color filter glasses
Jonghyun Kim,Younghoon Kim,Jisoo Hong,Gilbae Park,Keehoon Hong,민성욱,이병호 한국정보디스플레이학회 2011 Journal of information display Vol.12 No.1
Presented herein is a novel stereoscopic three-dimensional (3D) display system with active color filter glasses. This system provides full-color 3D images by applying the time-multiplexing technique on the original anaglyph method. By switching between the opposite anaglyph statuses, a full-color anaglyph is presented. A liquid crystal panel from a 3D monitor serves as an active color filter operating at 120 Hz. A display panel and a color filter are connected to one graphic card as a dual-link system, for synchronization. To test the quality of this system, a left/right-eye image separation test and an experiment with stereoscopic images were carried out. Although there was some crosstalk and blur, the system, as expected, provided fullcolor 3D display. This system overcomes a monochromatic 3D image, which is the major weakness of the original anaglyph system.
Wide viewing angle dynamic holographic stereogram with a curved array of spatial light modulators.
Hahn, Joonku,Kim, Hwi,Lim, Yongjun,Park, Gilbae,Lee, Byoungho Optical Society of America 2008 Optics express Vol.16 No.16
<P>A novel design of dynamic holographic stereogram with a curved array of spatial light modulators (SLMs) is proposed. In general, it is difficult to simultaneously achieve a wide viewing angle and an available width for the digital holographic display. Moreover, the wide viewing angle of a display system needs a large optical numerical aperture where the paraxial approximation fails, and thus an extremely large planar SLM is necessary in using previous methods. To solve this problem, our proposed display system is composed of a curved array of SLMs to obtain a large number of data points and reduce the spatial bandwidth in SLMs. In the curved array of SLMs, each SLM is individually transformed to display local angular spectra of object wave, which is based on a fundamental idea of holographic stereogram. To embody the dynamic holographic stereogram with SLMs, each SLM is effectively reformed for simplifying the optical structure and reducing the light power loss. In detail, spatially modulated wave is optically divided and transformed, as if each SLM were composed of three sub-SLMs. This design improves the scalability in viewing angle of holographic display and the loss of light power is significantly reduced. With this method, we can achieve the digital holographic display with 22.8 degrees viewing angle.</P>
Jung, Jae-Hyun,Hong, Keehoon,Park, Gilbae,Chung, Indeok,Park, Jae-Hyeung,Lee, Byoungho Optical Society of America 2010 Optics express Vol.18 No.25
<P>We proposed a reconstruction method for the occluded region of three-dimensional (3D) object using the depth extraction based on the optical flow and triangular mesh reconstruction in integral imaging. The depth information of sub-images from the acquired elemental image set is extracted using the optical flow with sub-pixel accuracy, which alleviates the depth quantization problem. The extracted depth maps of sub-image array are segmented by the depth threshold from the histogram based segmentation, which is represented as the point clouds. The point clouds are projected to the viewpoint of center sub-image and reconstructed by the triangular mesh reconstruction. The experimental results support the validity of the proposed method with high accuracy of peak signal-to-noise ratio and normalized cross-correlation in 3D image recognition.</P>
Kim, Yunhee,Choi, Heejin,Kim, Joohwan,Cho, Seong-Woo,Kim, Youngmin,Park, Gilbae,Lee, Byoungho The Optical Society 2007 Applied Optics Vol.46 No.18
<P>A depth-enhanced three-dimensional integral imaging system with electrically variable image planes is proposed. For implementing the variable image planes, polymer-dispersed liquid-crystal (PDLC) films and a projector are adopted as a new display system in the integral imaging. Since the transparencies of PDLC films are electrically controllable, we can make each film diffuse the projected light successively with a different depth from the lens array. As a result, the proposed method enables control of the location of image planes electrically and enhances the depth. The principle of the proposed method is described, and experimental results are also presented.</P>