Junkyu Yim
Kyung Hee University
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Publication
Featured researches published by Junkyu Yim.
Optical Engineering | 2014
Junkyu Yim; Young Min Kim; Sung-Wook Min
Abstract. Pickup method adopting the modified algorithm to generate the elemental image from virtual objects is proposed to obtain the elemental image for real objects. In the proposed method, the number of capturing processes is reduced compared with the conventional multiple capturing method. The pseudoscopic image problem can be resolved by controlling the position and the direction of the imaging device in the proposed pickup system. The telecentric lens system is used to capture the orthographic scenes, which are divided and compounded into the elemental image. The validity of the proposal is proved by the experimental results of the pickup and the reconstruction.
Applied Optics | 2017
KiHong Choi; Junkyu Yim; Sung-Wook Min
We propose the method that suppresses the defocus noise optically in the Fresnel incoherent correlation holographic system using a pinhole-polarizer (PP), which is made by punching a pinhole on the linear polarizer. The system configuration of this suggestion is based on the original system with optical-sectioning capability, which is realized by presenting the phase-pinhole on the phase-only spatial light modulator. In our system, the phase-pinhole is replaced with a PP. The replaced component is no longer programmable yet provides an affordable, simple, and light-efficient system configuration. The feasibility of the system with the PP is analyzed and demonstrated.
Applied Optics | 2014
Young Min Kim; Junkyu Yim; Yang-Keun Ahn; Sung-Wook Min
A novel method is proposed to compensate the distortion caused by the off-axis structure in integral floating with a concave mirror. The proposed method of this paper can generate the elemental image that is integrated into the multiple predistortion images for the corresponding multiview directions, which cannot be performed by the predistortion method using a single-view vector. The fundamental concept of the proposed method is that the predistortion images can be generated for more than two view vectors, which are defined by each set of corresponding elemental lens and subimage, and captured onto the subimage. In addition, the subimage can be divided into the several segments to increase the number of view vectors, so that the predistortion images generated by more view vectors can enhance the degree of compensation. The proper number of the view vectors per subimage is discussed and analyzed based on the small-angle approximation. Experiments to verify the feasibility of the proposed method are performed.
Applied Optics | 2014
Heejin Choi; Junkyu Yim; Young Min Kim; Sung-Wook Min; Joonku Hahn; Kwang-Mo Jung; Byoungho Lee
Low resolution and narrow viewing angle are common problems for most of the existing autostereoscopic display systems. Although integral imaging is among the promising candidates for future autostereoscopic display, it is not yet free from the above bottlenecks. In this paper, a new technique to enhance the picture quality of a three-dimensional image using an offset lens array is proposed. The proposed system is suitable to realize a tiled integral floating display with high pixel density, while it also increases the viewing angle to match all of the optical devices in a single display unit. The proposed scheme was also verified with experimental results.
Applied Optics | 2016
Junkyu Yim; Young Min Kim; Sung-Wook Min
We define the image expressible region where three-dimensional (3D) images can be reconstructed in an integral floating display using ray distribution information. Here, the image expressible and viewing regions of the integral floating system, defined using ray distribution based on ray optics, are analyzed to resolve an image-cropping problem known as the viewing window that is due to the virtual aperture. Two experiments for verifying the image expressible and viewing regions are performed, and the results are presented. The obtained analysis is useful to maximize the viewing properties of integral floating.
Optics Express | 2018
KiHong Choi; Junkyu Yim; Sung-Wook Min
A simple Fresnel-type self-interference incoherent digital holographic recording system is proposed. The main part of the system consists of the two linear polarizers and geometric phase lens. The geometric phase lens is employed as a polarization selective common-path interferometer. One of the polarizers is rotated by the motor and serves as a phase-shifter with the geometric phase lens, to eliminate the bias and twin image noise. A topological phase is obtained by the relative angle between the polarizer and geometric phase lens. Since this phase shifting method does not depend on the change of the optical path length, the phase shifting performance is almost constant in the broad spectral range. Using the proposed achromatic phase shifting method, a simultaneous three-color phase shifting digital hologram recording under the incoherent light source is demonstrated.
Optics Letters | 2017
KiHong Choi; Junkyu Yim; Seunghwi Yoo; Sung-Wook Min
Self-interference digital holography (SIDH) is actively studied because the hologram acquisition under the incoherent illumination condition is available. The key component in this system is wavefront modulating optics, which modulates an incoming object wave into two different wavefront curvatures. In this Letter, the geometric-phase hologram lens is introduced in the SIDH system to perform as a polarization-sensitive wavefront modulator and a single-path beam splitter. This special optics has several features, such as high transparency, a modulation efficiency up to 99%, a thinness of a few millimeters, and a flat structure. The demonstration system is devised, and the numerical reconstruction results from an acquired complex hologram are presented.
Digital Holography and Three-Dimensional Imaging | 2016
KiHong Choi; Junkyu Yim; Sung-Wook Min
The optical sectioning Fresnel incoherent holography (FINCH) system with the pinhole created on the polarizer film is suggested. This combined component can be applied to replace costly and comparably cumbersome optical component equipped to enable optical sectioning capability in FINCH.
Applied Optics | 2015
KiHong Choi; Junkyu Yim; Young Min Kim; Sung-Wook Min
international conference on consumer electronics | 2018
KiHong Choi; Junkyu Yim; Seunghwi Yoo; Heejin Choi; Sung-Wook Min