Shaosen Liang scite author profile

Shaosen Liang

3Publications

2Citation Statements Received

44Citation Statements Given

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Sun Yat-sen University

Publications

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Quantitative measurement of global crosstalk for 3D display

et al. 2016

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A photo‐detecting system based on photo‐detector with calibrated optical response is developed to characterize the global crosstalk of three‐dimensional (3D) displays over the entire display screen. Local screens areas are investigated, revealing that the crosstalk can be very inhomogeneous over the entire screens for typical stereoscopic display and autostereoscopic display. New quantification parameters for crosstalk, including average crosstalk and crosstalk uniformity, are introduced to give a panorama view of the display system. The crosstalk measurement and characterization method not only show good agreement with the practical visual experience, but also give a global quantitative description of crosstalk.

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Quantitative evaluation for luminance uniformity in 3D displays

Wang

Fan

et al. 2016

Optik

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Background noise analysis and improvement for the water vapor and oxygen transmission rate test of free-standing films

Zhu

Rahman

et al. 2021

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The background noise (BGN) of test equipment affects the lower detection limit of the measurement range, and achieving an ultralow BGN is identified as a formidable challenge for highly accurate testing of a free-standing film. In this paper, a new gas transmission rate test apparatus is designed by detecting the electrical resistance increase with calcium corrosion. Thanks to the new design strategy, the only permeable place of this apparatus is the clamping and holding site. Mathematical methods for calculating the molecular permeation behaviors and magnitude of BGN are devised. The results show that the properties and structures of the materials significantly affect the BGN value. By using a sealant with low permeability (2.25 × 10−15 g cm cm−2 s−1 Pa−1) and a clamping ring with small width (2.5 mm) and testing an ultrahigh barrier (WVTR: 10−6 g m−2 day−1), the BGN could reach a level of 10−11 g m−2 day−1. With theoretical guidance, after optimization, one sealing structure obtained an ultralow BGN value (∼10−6 g m−2 day−1) in the actual test. The electrical resistance test has many advantages over existing methods. Additionally, the computational method devised in this study to examine the effects of materials provides a useful tool to achieve high-accuracy testing.

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Shaosen Liang

Quantitative measurement of global crosstalk for 3D display

Quantitative evaluation for luminance uniformity in 3D displays

Background noise analysis and improvement for the water vapor and oxygen transmission rate test of free-standing films

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