Effect of ambient lighting on liquid–crystal displays with different types of surface treatment

Matsuyama, Miwa; Morishita, Junji; Akamine, Hiroshi; Tokurei, Shogo; Yabuuchi, Hidetake; Nakamura, Yasuhiko; Hashimoto, Noriyuki; Ohki, Masafumi

doi:10.1007/s12194-012-0178-x

Cited by 3 publications

(2 citation statements)

References 5 publications

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“…On the other hand, unwanted, disturbing reflection on the display screen reduced the contrast of displayed information in the local area [3]. Accordingly many techniques have been developed to improve the reflection of the display screen by applying anti-reflective (AR) films [4][5] and polarizers [6]. While anti-glare (AG) films can reduce unwanted reflections, they can also result in sparkling dots and blur the displayed information when combined with the subpixel structure of the screen [7].…”

Section: Introductionmentioning

confidence: 99%

73‐2: Optimized WRGB OLED Reflection Properties to Enhance Visual Quality in Gaming Displays

Ham,

Lee,

et al. 2023

Symp Digest of Tech Papers

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Immersiveness is a crucial element in gaming, and the quality of visual display is essential to achieving it. Reflections on gaming displays can hinder immersion under various lighting conditions. Four gaming displays were compared though reflection analysis and visual assessment. In this paper, we found that Lambertian reflectance was a crucial factor for image quality attributes such as Blackness, Contrast, and Sharpness. By applying AGAR surface treatment to WRGB OLEDs, the distinctness of reflected images was effectively reduced while maintaining blackness, making it a more suitable for playing games in various ambient environments.

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Section: Introductionmentioning

confidence: 99%

73‐2: Optimized WRGB OLED Reflection Properties to Enhance Visual Quality in Gaming Displays

Ham,

Lee,

et al. 2023

Symp Digest of Tech Papers

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“…In fact, the broader-band antireflection has always been the important, significant, and eventual pursuit in the field of antireflection. In many applications, such as architectural glass, car windshield, solar cell, cameras, optical components, liquid-crystal displays, , etc., broad-band antireflection films (ARFs) play a more and more crucial role of enhancing the efficiency of important optical parts. Eliminating unexpected reflection from contacted interfaces in these fields could save energy, reduce the occurrence of hazards, and get better visual effects.…”

Section: Introductionmentioning

confidence: 99%

Broader-Band and Flexible Antireflective Films with the Window-like Structures Inspired by the Backside of Butterfly Wing Scales

Ding

Liu

et al. 2021

ACS Appl. Mater. Interfaces

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Antireflective performance is critical for most optical devices, such as the efficient solar energy utilization in photovoltaic cells of an aerospace craft and optical displays of scientific precise equipment. Therein, outstanding broad-band antireflection is one of the most crucial properties for antireflection films (ARFs). Unfortunately, it is still a challenging work to realize perfect “broader-band” antireflection because both the low refractive indices materials and time-consuming nanotexturing technologies are required in the fabricating process. Even in this case, a broader-band and flexible ARF with hierarchical structures is successfully developed, which is inspired by butterfly wing scales. First, the butterfly wings surface is treated with acid and stuck on a clean glass. Now, all the scales on the wings will form a strong adhesion with the glass substrate. Then, the wings are removed and the scales are left on the glass slide. Now the backside of scales is facing outward, the backside structures of the scales are coincidentally used as the template. Finally, the structure is replicated and the ARF with a controllable thickness is successfully fabricated by rotating PDMS on the biological template. In this work, the bionic ARFs realize the transmission of nearly 90% and more than 90% in the visible light and infrared region. It enhanced transmission to 13% under standard illumination compared with flat PDMS films of the same thickness. Furthermore, the ARF is flexible enough that it could bend nearly 180° to meet the special antireflection requirements in some extreme conditions. It is expected that this bioinspired AR film could revolutionize the technologies of broader-band antireflective materials and impact numerous applications from glass displays to optoelectronic devices.

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A preliminary study for exploring the luminance ratio of liquid-crystal displays required for display of radiographs

Takarabe

Morishita

Yabuuchi

et al. 2013

Radiol Phys Technol

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Medical-grade liquid-crystal displays (LCDs) with high contrast ratio (CR) values have recently been developed and become available for soft-copy reading. When the LCD is used under ambient light conditions, the luminance ratio (LR) is a more appropriate indicator than the CR. Our aim was to explore the LR required for LCDs for soft-copy reading by comparing the effective LR values with the LR of the LCD. We defined "the luminance ratio in an image (LRimg)", the ratio of the maximum to minimum luminance in a radiograph displayed on the LCD, as the effective LR values required for the LCD. The maximum LRimg values in chest radiographs and those in mammograms ranged from 109 to 143 and 372 to 431, respectively. The LR of the LCD was higher than the LRimg values of the radiographs. Our results indicate that currently available medical-grade LCDs have enough LR for display of radiographs.

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Effect of ambient lighting on liquid–crystal displays with different types of surface treatment

Cited by 3 publications

References 5 publications

73‐2: Optimized WRGB OLED Reflection Properties to Enhance Visual Quality in Gaming Displays

73‐2: Optimized WRGB OLED Reflection Properties to Enhance Visual Quality in Gaming Displays

Broader-Band and Flexible Antireflective Films with the Window-like Structures Inspired by the Backside of Butterfly Wing Scales

A preliminary study for exploring the luminance ratio of liquid-crystal displays required for display of radiographs

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