Chi Can scite author profile

In many electronic information displays, a colour pixel comprises three spatially distinct sub‐pixels containing red, green and blue (RGB) colour filters. The option of adding a fourth white (W) sub‐pixel that allows light to pass through unfiltered can significantly improve the optical efficiency of the pixel that, in turn, increases the power efficiency of the display. Such a display is called an RGBW display, and the required transformation of data format from incoming RGB to pixel RGBW is termed as “RGB to RGBW conversion.” This paper reports a method of RGB to RGBW conversion that is highly compact and efficient in terms of system resources while retaining image quality. It processes incoming data through a new colour space conversion algorithm in order to reduce the average power consumption with no noticeable visual artefacts. We explain the method and demonstrate its cost‐effective and power‐effective implementation for the specific case of an organic light emitting diode microdisplay.

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A real-space interactive holographic display based on a large-aperture HOE

Khan

Can

Greenaway³

et al. 2013

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16‐1: Invited Paper: Holographic Volumetric 3D Displays

Khan

Blackwell

Can

et al. 2018

Symp Digest of Tech Papers

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Liquid crystal lasers: overcoming repetition rate limitations

Normand¹,

Hands²,

Chen³

et al. 2018

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Volumetric 3D display in real space using a diffractive lens, fast projector, and polychromatic light source

Blackwell¹,

Can²,

Khan³

et al. 2019

Opt. Lett.

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Chi Can

Overcoming repetition rate limitations in liquid crystal laser systems

Compact and efficient RGB to RGBW data conversion method and its application in OLED microdisplays

A real-space interactive holographic display based on a large-aperture HOE

16‐1: Invited Paper: Holographic Volumetric 3D Displays

Liquid crystal lasers: overcoming repetition rate limitations

Volumetric 3D display in real space using a diffractive lens, fast projector, and polychromatic light source

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