1. Field of the Invention
The present invention relates to an automatic color adjustment method and an automatic color adjustment device, and more particularly, to an automatic color adjustment method and an automatic color adjustment device for an image output device.
2. Description of the Related Art
Generally speaking, the color of an image output device (e.g. LCD monitors, projectors) will start to decay, deviate from its original color, and start to exhibit distortion after the device has been used for a period time. For example, as the light bulb of a projector is used for a period of time, its light intensity will gradually decrease and the colors will start to turn yellowish. A similar problem exists for the light emitting diodes and the organic light emitting diodes which are used in LCD panels and organic displays, respectively.
In the prior art, technology exists that allows detection of the lighting information of an LCD by means of a sensor; the lighting information detected is sent back to the LCD for the adjustment of the light source. However, this method incurs a higher manufacturing cost, and the lighting information detected is not always accurate.
Other technology also in the prior art allows pre-recording of the relationship of the light intensity and the usage time. After the lighting information of an image output device is detected, it is compared to the pre-recorded values, and the light intensity is adjusted accordingly in order to restore its original state. Although this method allows adjustment of the light intensity of the image output device, it does not allow color adjustment; also, by increasing the light intensity of a decayed light source, it in turn decreases the life span of the image output device.
Therefore, an automatic color adjustment method and an automatic color adjustment device are needed so as to solve the above mentioned problem.
An object of the present invention is to provide an automatic color adjustment method for an image output device.
Another object of the present invention is to provide an automatic color adjustment device which can perform automatic color adjustment for an image output device.
To achieve the first mentioned objective, the present invention presents an automatic color adjustment method comprising the following steps: obtaining an accumulated usage time of the image output device; obtaining color intensity decline values corresponding to the accumulated usage time; and adjusting the color intensity of the image output device according to the color intensity decline values.
In order to achieve the second mentioned objective, the present invention presents an automatic color adjustment device comprising a timer, a data storage unit, a comparison module, and a color control module. The timer is used to obtain the accumulated usage time of the image output device; the data storage unit is used to store the color intensity decline values; the comparison module is used to obtain the color intensity decline values corresponding to the accumulated usage time, and the color control module is used to adjust the color intensity of the image output device.
According to one embodiment of the present invention, the color intensity decline values include a red intensity decline value, a green intensity decline value, and a blue intensity decline value. The color intensity includes a red intensity, a green intensity, and a blue intensity. The color control module is used to adjust the red intensity, the green intensity, and the blue intensity to the same level of intensity.
The advantages and innovative features of the invention will become more apparent from the following preferred embodiments.
Refer to
The image output device 50 can be an LCD display or a projector. The image output device 50 comprises a light emitting body 52 and a screen displaying element 54, wherein the light emitting body 52 is used as the light source of the image output device 50, wherein the screen displaying element 54 is used as an adjusting element before the images are displayed. It must be emphasized that the light emitting body 52 and the screen displaying element 54 of the image output device 50 can be of the same element. For example, the light emitting body 52 and the screen displaying element 54 can both be an organic light emitting diode (OLED) when the image output device 50 is an organic display.
When the image output device 50 is an LCD screen, the light emitting body 52 can be a cold cathode fluorescent lamp (CCFL) or a light emitting diode (LED); when the image output device 50 is a projector, the light emitting body 52 can be a high voltage halogen lamp or an LED. The screen displaying element 54 can be a liquid crystal display (LCD) unit or a digital micromirror device (DMD) unit.
The image output device 50 has a color intensity which is formed by the combination of the intensities of the following colors: red, green, blue, yellow, and white. In the present embodiment, the color intensity of the image output device 50 is represented by the intensities of the three primary colors, which includes red intensity 61, green intensity 62, and blue intensity 63. The intensities of these colors decay respective to accumulated usage time, and the rates of decay are different for each color; not only will this cause the light intensity to decrease, it will also cause the white balance of the overall image to deviate from the original balance.
The automatic color adjustment device 1 comprises a timer 10, a data storage unit 20, a comparison module 30, and a color control module 40. The timer 10 is used to obtain the accumulated usage time of the image output device 50; the accumulated usage time only includes the usage time of the image output device 50 and excludes the time while the device is switched off.
The data storage unit 20 is used to store the color intensity decline values. The color intensity decline values are formed by the combination of the color intensity decline values of the following colors: red, green, blue, yellow and white. In the present embodiment, the color intensity decline values of the image output device 50 with respect to time are represented by the three primary colors, which include red intensity decline value 71; green intensity decline value 72; blue intensity decline value 73; red deviation value 91; green deviation value 92; and blue deviation value 93. By obtaining these values, the condition of the color decay and the color deviation of the image output device 50 can be fully captured. However, the relationship of the color intensity decline values to the usage time varies for different types of image output device 50; this relationship can be obtained by solving equations or by pre-measuring the device.
Comparison module 30 is used to obtain red intensity decline value 71, green intensity decline value 72, blue intensity decline value 73, red hue deviation value 91, green hue deviation value 92, and blue hue deviation value 93 with respect to the accumulated usage time obtained so that the expected color displaying ability of the image output device 50 for any particular accumulated usage time can be known.
The color control module 40 is used to adjust the light emitting body 52 and/or the screen displaying element 54. According to the red intensity decline value 71, the green intensity decline value 72, the blue intensity decline value 73, the red deviation value 91, the green deviation value 92, and the blue deviation value 93 obtained, the color control module 40 can separately adjust the red intensity 61, the green intensity 62, the blue intensity 63, the red hue 81, the green hue 82, and the blue hue 83 of the image output device 50 accordingly to display the image with a preferable condition.
Refer to
Please note that although the automatic color adjustment method is depicted according to the automatic color adjustment device 1 shown in
As shown in
In step 201, the plurality of real color intensity decline values at various accumulated usage times is obtained by the automatic color adjustment device 1, wherein the color intensity decline values are represented by the three theoretical primary colors, including a red intensity decline value, a green intensity decline value, and a blue intensity decline value. In the present embodiment, the plurality of real color intensity decline values at various accumulated usage times is obtained by pre-measuring the image output device 50; the information obtained is then stored in the data storage unit 20.
Refer to
Refer to
Next, the present invention proceeds with step 202: obtaining the accumulated usage time of the image output device. In step 202, the timer 10 of the automatic color adjustment device 1 is used to measure the accumulated usage time of the image output device; this information is then passed onto the comparison module 30 in order to proceed with step 203.
In step 203, the expected values of the red intensity decline value, the green intensity decline value, and the blue intensity decline value corresponding to the accumulated usage time are obtained. The comparison module 30 uses the accumulated usage time from step 202 and compares it with “the plurality of real color intensity decline values at various accumulated usage times” obtained in step 201, such that the corresponding red intensity decline value, the green intensity decline value, and the blue intensity decline value with respect to the accumulated usage time are obtained.
Please refer to
Next in the process is step 204. According to the red intensity decline value 71, the green intensity decline value 72, and the blue intensity decline value 73 obtained from step 203, the color control module 40 will separately adjust the red intensity 61, the green intensity 62, and the blue intensity 63 of the image output device to appropriate values, respectively. The color adjustment of the image output device 50 is achieved by means of the light emitting body 52 or the screen display element 54.
Wherein a light emitting body 52 is used for the adjustment process before the images are generated, the light intensity, level, and saturation can be adjusted by altering the voltage and the current of the light emitting body 52. For example, the light emitting body 52 can be a light bulb for a projector.
Wherein a screen displaying element 54 is used for the adjustment process after the images are generated, by tuning the screen displaying element 54, the light level, intensity, contrast, saturation, and tone of the image output device 50 can be adjusted accordingly. For example, the screen displaying element 54 can be a digital micro mirror device for a projector.
Please note that the color adjustment and the adjustment of the light emitting body 52 and the screen displaying element 54 can be performed at the same time.
The following passage describes two color adjustment methods. Refer to
For example, the lowest intensity from the set of the red intensity 61, the green intensity 62, and the blue intensity 63 is chosen, and all color intensities are adjusted to match the lowest intensity. In the present embodiment, the blue color has the fastest rate of decay of the three primary colors; therefore, the blue intensity is used as a benchmark; the red intensity 61 and the green intensity 62 will be thus adjusted to match the blue intensity 63. As a result, the colors of the image output device 50 can be restored to the preferred condition. As an example, the initial intensity ratio of the primary colors (red, green and blue) are 1:1:1. After 1,000 hours of usage, the ratio becomes 98.4:98:97; the color control module 40 can then adjust the color intensities to restore the intensity ratio of 1:1:1. As shown in
Next refer to
Besides color decay, there will be color deviation and wavelength variation after the image output device 50 is used for a period of time. For example, the original green will gradually become a reddish green. In order to adjust the color deviation problem after the image output device 50 is used for a period of time, the present invention proceeds with step 205: obtaining the relationship of color deviation values respective to time for the image output device 50.
The relationship of color deviation values respective to time for the image output device 50 is obtained by the automatic color adjustment device 1; the color deviation values are represented by the three primary colors, including the red deviation value, the green deviation value, and the blue deviation value. In the present embodiment, the relationship of color deviation values respective to time is obtained by pre-measuring the image output device 50, and the information obtained is then stored in the data storage unit 20.
Please note that the relationship of the color deviation values respective to time of the image output device 50 can be obtained in step 201.
The process continues with step 206: obtaining the red deviation value, the green deviation value, and the blue deviation value corresponding to the accumulated usage time.
The comparison module 30 can make use of the accumulated usage time and compare it with “the relationship of color deviation values respective to time”, such that the red hue deviation value 91, the green hue deviation value 92, and the blue hue deviation value 93 of the corresponding accumulated usage time can be obtained.
Please note that the red hue deviation value 91, the green hue deviation value 92, and the blue hue deviation value 93 can be obtained in step 203.
Step 207 is used for adjustment of the red hue, the green hue, and the blue hue of the image output device. According to the red hue deviation value 91, the green hue deviation value 92 and the blue hue deviation value 93 obtained in step 206, the color control module 40 will adjust the red hue 81, the green hue 82 and the blue hue 83 of the image output device 50 to an appropriate value.
Please note that step 207 and step 204 can be completed at the same time. Please note also that if the objective of color adjustment is fulfilled by steps 201 to 204, then steps 205 to 207 can be omitted.
Although the present invention has been explained in relation to its preferred embodiment, it is also of vital importance to acknowledge that many other possible modifications and variations can be made without departing from the spirit and scope of the invention as hereinafter claimed.
| Number | Date | Country | Kind |
|---|---|---|---|
| 097126944 | Jul 2008 | TW | national |