KR100734356B1 - Method and apparatus of processing video signal - Google Patents

Abstract

An image processing method according to the present invention includes a first step of receiving an APL value and RGB data, and a second step of adjusting the level of the RGB data according to the APL value. In particular, the second step includes checking whether the level of the RGB data is extremely high while the APL value is extremely low, and if the level is extremely high, lowering the level of the color signal. On the contrary, if the level of the RGB data is extremely low in the state where the APL value is extremely high, and if the level of the RGB data is extremely low in the state where the APL value is extremely high, if the level is extremely low, the level of the color signal is increased. Steps.

An image processing apparatus according to the present invention includes a Y / C separation unit, a decoder, an AD converter, a lookup table, a data rearrangement unit, and a control unit, wherein the control unit is configured to perform the control in a state where the APL value is extremely low. When the level of the R, G, B data is extremely high, the level of the color signal is lowered. When the level of the R, G, B data is extremely low while the APL value is extremely high, the level of the R, G, B data is increased. The RGB data adjustment value is varied so as to increase.

APL, RGB

Description

Image processing method and apparatus {METHOD AND APPARATUS OF PROCESSING VIDEO SIGNAL}

1 is a schematic configuration diagram of an image display apparatus according to a preferred embodiment of the present invention.

2 is a flowchart of an image processing method according to a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: Y / C separation part

110: decoder

120: A / D converter

121: first A / D conversion unit

122: second A / D conversion unit

130: data rearrangement unit

140: lookup table

150: control unit

160: memory unit

The present invention relates to an image display device, and more particularly, to an image processing method and apparatus for an image display device.

In general, a PDP TV receives an analog composite video signal and separates the analog R, G, and B signals from the horizontal and vertical synchronization signals, and an average luminance level (APL) corresponding to the average value of the luminance signal (Y, Brightness signal). Level), and converted into N bits of digital data based on a predetermined sampling clock to improve the brightness of the PDP TV, and outputs the data by mapping the converted digital data into data corresponding to the brightness characteristics of the PDP. For data processing, the data is reconstructed into a plurality of sub-fields whose retention period is shortened from the upper bit MSB to the lower bit LSB, for example, and stored in the frame memory. It is provided to the data driver stage on the side and displayed.

In this case, the average luminance level (APL) represents the average brightness of the 1H section in the video luminance signal and varies depending on the type of the input video signal.

However, since the levels of the APL and the color signal do not correspond, a light color screen is displayed when the color signal level is relatively lower than that of the APL, and a dark color screen is displayed when the level of the color signal is relatively higher than the APL. It became.

This is because when the level of the color signal is too high in the state of low luminance or the level of the color signal is too low in the state of high luminance, it is difficult to recognize the screen itself.

Accordingly, in the related art, there is an urgent need to develop a technology that can solve a problem in which an unrecognizable screen is displayed in a state where the color signal level is too high or the luminance is too low while the luminance is low.

Therefore, an object of the present invention is to adjust the level of the color signal according to the APL, it is possible to solve the problem that the level of the color signal is too high in the state of low brightness or the unrecognizable screen is displayed because the level of the color signal is too low in the state of high luminance There is provided an image processing method and apparatus.

According to the present invention for achieving the above object, the image processing method comprises a first step of receiving an APL value and RGB data, and a second step of adjusting the level of the RGB data according to the APL value do.

In particular, the second step may include checking whether the level of the RGB data is extremely high when the APL value is extremely low, and when the level of the RGB data is extremely high when the APL value is extremely low, adjusting the level of the color signal. It is characterized by consisting of a step of lowering.

In particular, the second step may include checking whether the level of the RGB data is extremely low in the state where the APL value is extremely high, and when the level of the RGB data is extremely low in the state where the APL value is extremely high, It is characterized by consisting of the step of raising the level.

According to the present invention, an image processing apparatus includes: a Y / C separation unit for receiving a composite video signal and separating the luminance signal and the color signal, a decoder for converting the color signal into RGB data, and calculating an APL value from the luminance signal; An AD converter for AD conversion of the output of the decoder, a lookup table for storing RGB data adjustment values according to the APL values, and RGB data from the AD converter for adjusting the RGB data from the AD converter according to data adjustment values of the lookup table. And a data rearrangement unit and a control unit configured to vary the RGB data adjustment value of the lookup table according to the APL value.

In particular, the control unit lowers the level of the color signal when the level of the R, G, B data is extremely high while the APL value is extremely low, and the level of the R, G, B data is extremely high when the APL value is extremely high. When the value is low, the RGB data adjustment value is varied to increase the level of the R, G, and B data.

1 is a schematic configuration diagram of an image display device according to an exemplary embodiment of the present invention, wherein a luminance signal Y / color signal C separation unit 100, a decoder 110, and an A / D conversion unit are shown. And a data rearranging unit 130, a lookup table 140, a control unit 150, and a memory unit 160.

The Y / C separation unit 100 separates the luminance signal Y and the color signal C from the input composite video signal and provides the same to the decoder 110. The decoder 110 detects an APL value of a luminance signal provided from the Y / C separation unit 100 and provides a second A / D converter 122. The decoder 110 restores a color signal to an R, G, and B signal to obtain a second signal. It is provided to the 1A / D converter 121.

At this time, the first A / D converter 121 cultivates data of the R, G, B data obtained by converting the R, G, B signals provided from the decoder 110 into digital signals by using a preset sampling clock provided from the outside. Provided to the column unit 130 and the controller 150, and the second A / D converter 122 samples the APL value provided by the decoder 110 by a predetermined sampling clock and converts the APL value into digital data of a predetermined bit. The data rearrangement unit 130 and the control unit 150 are provided. That is, the first A / D converter 121 converts the R, G, and B signals provided from the decoder 110 into 8-bit digital data by using a predetermined sampling clock to convert the data rearranger 130 and the controller 150. The second A / D converter 122 converts the APL value provided from the decoder 110 into 8-bit digital data by using a predetermined sampling clock to convert the data to the data rearranging unit 130 and the controller 150. To provide.

The data rearranger 130 controls the brightness of the digitally converted R, G, and B provided by the first A / D converter 121 using the lookup table 140 and provides the data driver. That is, the data rearranging unit 130 searches for a brightness value corresponding to the digital conversion value of the APL value provided by the second A / D converter 122 to the brightness corresponding to the searched value from the lookup table 140. The brightness of the R, G, and B data provided by the first A / D converter 121 is controlled and provided to the data driver.

The lookup table 140 stores a digital conversion value for adjusting the brightness of the R, G, and B data provided by the first A / D converter 121 under the control of the controller 150.

The controller 150 not only controls the image display device as a whole, but also lowers the color signal level for an extremely low APL value and increases the level of the color signal for an extremely high APL value according to an exemplary embodiment of the present invention. The digital conversion value of the lookup table 140 is adjusted.

In addition, the memory unit 160 stores various information including a processing program of the controller 150.

Now, an image processing method according to a preferred embodiment of the present invention applicable to the image display apparatus will be described with reference to the flowchart of FIG.

The controller 150 checks whether a composite video signal is input from the outside (step 200).

When the composite video signal is provided from the outside, the controller 150 receives APL, R, G, and B data from the decoder 110 (step 204).

When the APL and the color signal are provided, the controller 150 determines whether the level of the color signal is too high when the APL is extremely low or that the level of the color signal is too low when the APL is extremely high, that is, a lookup table 140. In step 206, it is checked whether the digital conversion value needs to be adjusted.

If the level of the R, G, B data is too high when the APL is extremely low, or the level of the R, G, B data is too low when the APL is extremely high, The digital conversion value of the lookup table 140 is adjusted to lower the level of the G, B data or the level of the R, G, B data (step 208).

As described above, the present invention can solve the problem that an unrecognizable screen is displayed by adjusting the level of the color signal according to the APL so that the level of the color signal is too high in the low luminance state or the level of the color signal is too low in the high luminance state. There is an advantage to that.

Claims (5)

In the image processing method, A first step of receiving APL values and R, G, and B data; When the APL value is extremely low and the level of the R, G, B data is extremely high while comparing the APL value with the R, G, B data level, the level of the R, G, B data is lowered, and the APL value is increased. And a second step of raising the level of the R, G, B data if the level of the R, G, B data is extremely low in the extremely high state. delete delete In the image processing apparatus, A Y / C separation unit for receiving a composite video signal and separating the luminance signal and the color signal; A decoder for converting the color signal into R, G, and B data and calculating an APL value from the luminance signal; An AD converter for AD converting the output of the decoder, A lookup table for storing R, G, and B data adjustment values according to the APL value; A data rearrangement unit for adjusting R, G, and B data from the AD conversion unit according to data adjustment values of the lookup table; And a controller configured to vary the R, G, B data adjustment values of the lookup table by comparing the APL value with the R, G, B data levels. The method of claim 4, wherein the control unit lowers the level of the color signal when the level of the R, G, B data is extremely high while the APL value is extremely low, and the R, G, B when the APL value is extremely high. And if the level of data is extremely low, changing the RGB data adjustment value to increase the level of the color signal.

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