Yung-Jun Park scite author profile

Yung-Jun Park

5Publications

74Citation Statements Received

31Citation Statements Given

How they've been cited

104

How they cite others

Affiliations

Samsung (South Korea), Samsung (United States)

Publications

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39.3: Locally Pixel‐Compensated Backlight Dimming for Improving Static Contrast on LED Backlit LCDs

Chen

Sung

et al. 2007

Symp Digest of Tech Papers

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This paper presents a pixel compensated backlight dimming method for improving contrast on LED-LCD. The backlight luminance is dimmed locally along with image contents, and pixel values are compensated synchronously according to the luminance profile of dimmed backlight. Static contrast above 20000:1 has been achieved on a large size LCD with the proposed method and no obvious artifacts are observed.

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Locally pixel‐compensated backlight dimming on LED‐backlit LCD TV

Chen¹,

Sung²,

Ha³

et al. 2007

J Soc Info Display

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The pixel brightness of an LCD panel perceived by a user is the product of the backlight brightness and the panel transmittance. In conventional LCD panels, the backlight brightness is constant and always at peak luminance. This design suffers from light leakage and power waste problems at dark scenes. This paper presents a new LCD system, which uses locally pixel-compensated backlight dimming (PCBD). The proposed method combines backlight control and pixel processing for reducing light leakage and power consumption while keeping the image at the original brightness. Backlight luminance is dimmed locally in the dark-image region, and pixel values are compensated synchronously according to the luminance profile of dimmed backlight. By reducing the light leakage, a static contrast of over 20,000:1 has been achieved on a large-sized LCD panel with the proposed PCBD method. No obvious artifacts have been noticed as well. The power consumption of the panel can also be greatly reduced, depending on various video content. The PCBD method could be widely used for developing state-of-the-art LCD panels with LED backlights.

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Frame rate up-conversion using the wavelet transform

Choi

Lee

Park

et al.

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We propose a new frame rate upconversion algorithm using the wavelet transform. In the proposed scheme, motion estimation is performed using the information in the wavelet-transformed subbands. In addition, an effective compensation method for the occlusion areas, called overcompensation, is presented. Computer simulation shows a higher performance of the proposed upconversion scheme than conventional methods.

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Overall Illuminance Uniformity of IRED Lighting in Nighttime CCTV

Sa-Gong¹,

Park²,

Park³

et al. 2017

Transactions on Electrical and Electronic Materials

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This study looks at optimizinge light redistribution to improve the overall illuminance uniformity of commercial IRED modules. To obtain uniform illumination over a prescribed rectangular area, a freeform surface lens was evaluated using TracePro. The LED light overall illuminance uniformity regulated in KSC 7658 was verified using Relux software. Experimental test results showed 0.81 overall illuminance uniformity for rectangular light distribution of LED lights having a radiation angle of 80°. After fabricating prototype IRED lights based on these simulation results, illuminance performance was observed when used as actual IRED lighting with a nighttime CCTV system. Image observation photographs of the prototype 80° rectangular IRED lights confirmed that object images can be seen clearly owing to high overall illuminance uniformity, and that dark regions of the CCTV screen were not shown.

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28.2: Reduction of Temporal Image Sticking Phenomenon by Using a High‐Purity Single‐Crystal MgO in Plasma Display

Kim

Lim

Lee

et al. 2010

Symp Digest of Tech Papers

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Yung-Jun Park

39.3: Locally Pixel‐Compensated Backlight Dimming for Improving Static Contrast on LED Backlit LCDs

Locally pixel‐compensated backlight dimming on LED‐backlit LCD TV

Frame rate up-conversion using the wavelet transform

Overall Illuminance Uniformity of IRED Lighting in Nighttime CCTV

28.2: Reduction of Temporal Image Sticking Phenomenon by Using a High‐Purity Single‐Crystal MgO in Plasma Display

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