The present invention relates to portable display devices presenting formatted information content to users and, in particular, to reducing the power used by such display devices.
Portable electronic devices are used for many applications. Examples include telephones, personal digital assistants (PDAs), pagers, global positioning systems, digital cameras, and the like. Many of these devices rely on a local power supply with a very limited lifetime. Moreover, many of these devices include a display used to present text, graphics, and images to users.
Displays in common use for mobile devices are primarily based on liquid crystal displays (LCD). Reflective LCD displays take very little power to operate but cannot be seen in the dark, i.e. they require external illumination. Transmissive LCD displays utilize a back-light to provide illumination that is blocked (or not) by pixel elements in a display. The back-light illumination is used regardless of the display content. For example, displaying a black screen requires the same amount of power as displaying a white or colored screen. In contrast, emissive displays, such as organic light emitting diode (OLED) displays, only use power when emitting light so that displaying a black screen requires no power while displaying a white or colored screen does require power.
Most information presented on displays is formatted by a mark-up language compatible with the standard generalized markup language (SGML) specification. Such a language typically specifies the size, font, background, position, etc., of text as well as the location and size of graphic or image elements in the information. A mark-up language provides instructions to a computer controlling the display on how to format the information. For example, the hypertext markup language (HTML) is used for presenting information on Internet web sites.
Information displays with their own illumination source often use a significant fraction of the available power for portable computing and/or communications devices. For example, PDAs and cell phones incorporate a display used for presenting both text and images. The display can be a significant drain on the power supply of the device and the power supply must be recharged at frequent intervals, limiting the available time that the device is usable between charges. This is inconvenient and reduces the usefulness of the device.
There is a need therefore for an improved method for reducing the power used by the display in a portable electronic device.
The need is met according to the present invention by providing a method and system for reducing the power used by a display device having light emitting pixels, including the steps of: receiving formatted information for presentation on the display device; modifying the format of the formatted information to reduce the number and/or intensity of bright pixels in a display of the formatted information; rendering the modified formatted information; and displaying the rendered modified formatted information on the display device.
The present invention has the advantage that it reduces the power used by an emissive information display. The method can be simply and economically implemented by software in a display device having a controller or processor for rendering images to be displayed and is widely applicable to a variety of format standards.
The present invention employs information format pre-processing for emissive displays. As used herein, “emissive display” refers to a display wherein each pixel is a light source as opposed to a light modulator, such as an organic light emitting diode (OLED) display. The pre-processing modifies the information format to reduce the number of bright pixels in the display. The pre-processing does not change the information content but does change the appearance of the information that is displayed.
Referring to
Referring to
Most information content is formatted using a markup language, containing specific markup tags. These tags are placed within the information content to define the appearance or format of the displayed information content. By modifying the tags or parameters associated with the tags, the information content will be rendered in a different format. For example, the hypertext markup language (html) uses a ‘<U>’ string to indicate underline, and ‘<B>’ string to indicate bold while attributes associated with tables or text (such as BGCOLOR) modify the color or brightness of the background or text.
Any modification that reduces the number of bright pixels will reduce the power usage in an emissive display. For example, the brightness of the background or text may be reduced. Using a light text on a dark background requires less power than the reverse. Likewise, bold text (if in a bright format) will require more power than normal text. The thickness of the text can be modified, for example by changing bright bold text on a dark background to normal text, or by changing dark normal text on a light background to bold text. Similarly, reducing the number of bright pixel elements in a graphic element or image can reduce the total power used by the display. This can be accomplished, for example, by setting all of the pixels below a certain threshold to black, reducing highlights in the graphic or image, or by scaling all of the pixels by a certain percentage thereby making the entire graphic less bright. Alternatively, graphic elements may be eliminated entirely and replaced with a black background. A less drastic alternative is to binarize the image or graphic element by setting every pixel in the image to either one of two values, a darker or a lighter value, depending on whether they are below or above a pre-determined or pre-selected threshold. The values and threshold are chosen so that the average brightness of the image or graphic is reduced. The two values may, but need not necessarily, be black and white. The darker or more efficient the two binary values are, the greater the power savings. The threshold value should be set so as to maximize the number of pixels set to the darker or more efficient value. The information necessary to set the thresholds can be obtained from a histogram of the brightness code values of a particular image to be displayed, or from the histograms of a selection of representative images. This binarizing technique can also be applied to text and background to achieve power savings.
The degree to which the formatting is modified may be controlled by a viewer. For example, a viewer might enable only text and background color changes, modify a threshold for binarization or the binarized values or, alternatively, eliminate all graphic displays. This control can be managed by setting preferences used by a format modification program in the processor 10.
Since emissive displays may be less efficient in producing certain colors than others, it is also possible to reduce the power usage by using the more efficient colors in preference to the less efficient colors. If, for example, the green pixels are more efficient than red, replacing red with green as a preferred color in text will reduce the power use of the display. The color of the text and the background can also be reversed to save power if the background color is of the same brightness, but less efficient.
In operation, the system and method works as follows. Referring to
The invention has been described in detail with particular reference to certain preferred embodiments thereof, but it will be understood that variations and modifications can be effected within the spirit and scope of the invention.
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