Yanping Liao scite author profile

Yanping Liao

5Publications

30Citation Statements Received

20Citation Statements Given

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Affiliations

Harbin Engineering University, BOE Technology Group (China)

Publications

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Development of a 97.5-inch Super Hi-Vision 8 K × 4 K liquid crystal display panel

Liao

Shao

Yuan

et al. 2015

Journal of Information Display

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A prototype 97.5-inch 8 K × 4 K a-Si liquid crystal display (LCD) panel for Super Hi-Vision with ultra-high definition was successfully developed using the BOE exclusive advanced super-dimensional switching technology. This LCD has a panel with 7680(× 3) by 4320 pixels, 16 times those of the conventional Full High Definition (FHD), and the pixel size of the panel is 0.2811 mm (90.4 pixels per inch). The liquid crystal charging time was extended by quad area and double source line structure (also called "2G2D driving"). Additionally, a multi-functional image-processing video board was developed to compatibly realize the real-time display of huge image data from FHD to 8 K. Furthermore, the reason for the arcing that occurred in half-tone source-drain mask etching was discussed and was ultimately solved by improving the exposure process. The demonstrated panel features a 1200:1 contrast ratio, 500 nit brightness, and 72% color gamut.

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Development of a 120 Hz 110″ ultra-high-definition a-Si liquid crystal display panel

Liao

Shao

et al. 2014

Journal of Information Display

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A prototype 120 Hz 110-inch ultra-high-definition a-Si liquid crystal display (LCD) panel was successfully developed using the BOE exclusive advanced superdimensional switching technology. This LCD has a panel consisting of 3840 × 2160 pixels, four times the number of pixels in the conventional full-high-definition LCD. For the brightness and contrast ratio, 1000 nits and 1200:1 have been achieved, respectively. Additionally, the liquid crystal charging time has been extended through quad area driving and 2G2D line structures. Furthermore, the local dimming and mirror-scanning techniques are applied to realize excellent image display. Finally, the system utilizes 3D shutter glasses, allowing the viewer to achieve the highest sense of realness and immersion.

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Joint DOD and DOA Estimation in Bistatic MIMO Radar With Distributed Nested Arrays

2019

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In this paper, we investigate the problem of joint direction of departure (DOD) and the direction of arrival (DOA) estimation in bistatic MIMO radar. A new bistatic MIMO radar with the distributed nested array is proposed. Based on the new array, the DOD and DOA estimation algorithm called automatically paired DR-ESPRIT based on the angle disambiguation algorithm by using the range information of targets is proposed. By designing distributed nested array and using Khatri-Rao product processing, the long baseline and short baseline in the transceiver arrays are virtually extended simultaneously. The non-ambiguous and high-accuracy sine estimations of the DOD and DOA can be accomplished using DR-ESPRIT algorithm and the range information of targets and the geometry of bistatic MIMO radar. The virtual extension of array aperture and high angle estimation accuracy can be achieved for the MIMO radar with automatic pairing and without increasing the number of antennas compared with traditional uniform linear MIMO array. And, the proposed corresponding algorithm gives significant improvement in the DOD and DOA estimation performance. The simulation results validate the theoretical algorithm. INDEX TERMS Bistatic MIMO radar, distributed nested array, DOD and DOA estimation, disambiguation, DR-ESPRIT.

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Robust near-field beamforming with worst case performance based on convex optimization

Liao

Yan-min

Zhang

2012

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Improved algorithm of mainlobe interference suppression based on eigen-subspace

Liujian

Liao

2016

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Yanping Liao

Development of a 97.5-inch Super Hi-Vision 8 K × 4 K liquid crystal display panel

Development of a 120 Hz 110″ ultra-high-definition a-Si liquid crystal display panel

Joint DOD and DOA Estimation in Bistatic MIMO Radar With Distributed Nested Arrays

Robust near-field beamforming with worst case performance based on convex optimization

Improved algorithm of mainlobe interference suppression based on eigen-subspace

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