KR20080107161A - Image processing apparatus and control method thereof - Google Patents

Abstract

An image processing apparatus and a control method are provided to improve the quality of an image selectively by controlling the display state of the image signal. A picture quality improving part(24) changes the chromaticity coordinate value of the color correction domain corresponding to the predetermined correction object color within the video signal with fixed range. A controller(40) controls the picture quality improving part in order to change the chromaticity coordinate value within the color correction domain in case the corresponding color pixel more than the required number is consecutively detected from the processing object video signal.

Description

Image processing apparatus and control method thereof {IMAGE PROCESSING APPARATUS AND CONTROL METHOD THEREOF}

1 is a block diagram showing the configuration of an image processing apparatus according to an embodiment of the present invention.

2 is a flowchart illustrating a control method of an image processing apparatus according to an exemplary embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: image processing apparatus 10: signal receiving unit

20: image processing unit 24: image quality improving unit

30: display unit 40: control unit

50: memory

The present invention relates to an image processing apparatus and a control method thereof, and more particularly, to an image processing apparatus and a control method for improving the quality of an image signal.

There is a method of increasing the image quality (Contrast) to improve the quality of the image by adjusting the display state of the image displayed on the image signal processing apparatus including a television, a monitor, and the like.

As a method of increasing the image quality of the image, a method of processing attributes such as hue, saturation, and brightness of the image signal applied to the image signal processing apparatus is applied.

However, the processing for improving the image quality may cause color delays not only in the entire video signal but also in processing a large amount of data internally, thereby causing a time delay.

Therefore, rather than performing image enhancement on all of the received image signals, it is necessary to adjust them to be selectively performed when necessary.

Accordingly, it is an object of the present invention to provide an image processing apparatus and a method of controlling the same, which are selectively performed only when image quality is required to adjust the display state of an image signal.

The object of the present invention is to provide an image processing apparatus comprising: an image quality improving unit for performing color correction by changing a color coordinate value of a color correction area corresponding to a predetermined correction target color in a video signal by a predetermined range; And a controller configured to control the image quality improvement unit to change the color coordinate value in the color correction region when a predetermined number or more of the corresponding color pixels are continuously detected in the color correction region in the color correction region in the target image signal. Achieved by an image processing apparatus.

Here, the controller may change at least one of the color coordinates of the hue and the saturation of the region to be corrected.

The image processing apparatus may further include a memory unit in which predetermined reference pixel number information and setting values including predetermined reference frame number information are stored, and the controller detects the number of pixels included in the correction target area during a predetermined frame. And compare the detected number of pixels with the reference number of pixels, calculate the number of frames for detecting pixels included in the color correction area, compare the calculated number of frames with the number of reference frames, and based on the comparison result. Color correction can be performed.

On the other hand, the object of the control method of the image processing apparatus, comprising the steps of: receiving a video signal including a predetermined target color; And changing the color coordinate value in the color correction area when a predetermined number or more of the corresponding color pixels are continuously detected over a predetermined number of frames in the color correction area corresponding to the color to be corrected. It is also achieved by the method.

The method may further include detecting the number of pixels included in the color correction region during the predetermined frame from the received image signal, comparing the detected number of pixels with a predetermined reference pixel, and comparing the number of pixels included in the color correction region. The method may further include calculating the number of detected frames and comparing the calculated number of frames with a predetermined reference frame number, and performing the color correction based on the comparison result.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention.

1 is a block diagram showing the configuration of an image processing apparatus 100 according to an embodiment of the present invention. The image processing apparatus 100 of the present embodiment may be implemented as a display apparatus such as a digital TV or a monitor.

In more detail, the image processing apparatus 100 is connected to an image device including a computer system such as a PC to receive an image signal, or tune a digital broadcast signal and an analog broadcast signal received through an antenna, and convert the image signal into an image signal and an audio signal. The image is separated by performing predetermined image processing on the received image signal.

As shown in FIG. 1, the image processing apparatus 100 according to an exemplary embodiment of the present invention may include a signal receiver 10, an image processor 20, a display unit 30, a controller 40, and a memory unit 50. ).

The signal receiver 10 receives a video signal from a video device. Here, the received video signal may be in RGB (Red, Green, Blue) format.

The signal receiver 10 may include at least one connector 11 according to the type of the received video signal. The connector may include a D-SUB connector corresponding to an analog video signal and a DVI connector corresponding to a digital video signal.

The signal receiver 10 may include an antenna 12 for receiving a broadcast signal and a tuner 13 for tuning the received broadcast signal to a broadcast signal having a frequency band corresponding thereto according to a predetermined tuning control signal. have. The tuned broadcast signal is output in the form of a transport stream through a VSB demodulation process and an error correction process by a demodulator (not shown), and a video signal, an audio signal, and various additional data by a demultiplexer (not shown). Separated and output in the form of a bit stream.

The image processor 20 performs appropriate image processing on the image signal received by the signal receiver 10 according to the type of the image signal. The image processor 20 may include an A / D converter 21, a decoder 22, a scaler 23, an image quality enhancer 24, and the like.

Here, the CE (Contrast Enhancer) 24 enhances the quality of an image by changing a color coordinate value of a color correction area corresponding to a predetermined correction target color in the image signal. .

In detail, the image quality improving unit 24 may convert the RGB image signal received by the signal receiving unit 10 into an HSV image signal, and change a color coordinate value on the converted HSV domain. The HSV video signal has a configuration based on hue, saturation, and brightness.

Accordingly, the image quality enhancing unit 21 converts the RGB image signal into an HSV image signal to detect color and saturation information that are not known in the RGB image, and based on the detected color and saturation information. Adjust the display range of the color to be corrected.

Accordingly, when the received frame includes a color corresponding to the color correction area, the image quality improvement unit 21 detects color and saturation information of the color to be corrected, and adjusts at least one color coordinate value of the detected color and saturation. By correcting, the brightness and brightness on the device are adjusted to improve the image quality.

Meanwhile, the image quality enhancing unit 21 converts an RGB image signal into a YUV image signal, and separates a color to be corrected into a luminance component (Y: Luminance) and a color signal component (C: Chrominance), and enhances the image quality. May be implemented.

Here, the image quality improvement unit 24 includes an area detection unit 24a for detecting the color correction area from the received video signal, a pixel comparator 24b for calculating the number of pixels included in the color correction area for successive predetermined frames. And a frame comparator 24c for calculating the number of frames in which the pixels included in the color correction area are detected.

The area detection unit 24a detects whether the received video signal includes the color correction area A corresponding to the predetermined correction target color.

Here, the color to be corrected may include at least one of skin color, sky color, and turf color having a high frequency among the colors displayed through the image processing apparatus 100. Skin color, sky color, and turf color are the most familiar memory colors in human eyes, and the color becomes more sensitive than other colors.

The pixel comparator 24b detects the number P of pixels included in the color correction area A during a predetermined frame consecutive from the received image signal. The detected pixel number P is stored in the memory unit 50 described later.

The frame comparing unit 24c calculates the number f of frames in which pixels included in the color information area are detected. The calculated frame number f is stored in the memory unit 50 described later.

The display unit 30 displays an image based on the image signal processed by the image processor 20. The display unit 30 may include a liquid crystal display (LCD) or a plasma display panel (PDP).

The memory unit 50 stores information about the region A to be corrected corresponding to a predetermined color to be corrected, the number of reference pixels P0 for determining whether to correct the color, and the number of reference frames f0.

The controller 40 controls the overall operation of the image processing apparatus 100.

Specifically, the control unit 40 compares the received video signal with the correction target area A information stored in the memory unit 50, and controls the area detecting unit 24a to detect whether the video signal includes the correction target color. To control.

The controller 40 detects the number P of pixels included in the color correction area A during a predetermined frame from the image signal received through the pixel detection unit 24b, and detects the number P of pixels. The number of reference pixels P0 stored in the memory unit 50 is compared.

When the detected number of pixels P is equal to or greater than the reference number of pixels P0, the controller 40 corrects color coordinates in the color correction area to perform color correction.

That is, when the detected pixel number P is smaller than the reference pixel number P0, the controller 40 does not perform color correction.

On the other hand, the memory unit 50 stores the reference ratio (%) information for the color correction area corresponding to the color to be corrected among the image signals instead of the reference pixel number P0 in the memory unit 50, and the controller 40 If the ratio of detecting the color correction area is larger than the stored reference ratio, the color coordinate value may be changed.

The controller 40 calculates the number of frames f in which the pixels included in the color correction area A are detected through the frame calculator 24c, and calculates the calculated number of frames f and the memory unit 50. ) Compares the reference frame number f0 stored in "

If the detected frame number f is greater than or equal to the reference frame number f0, the controller 40 corrects the color coordinates in the color correction area to perform color correction.

That is, when the calculated frame number f is smaller than the reference frame number f0, the controller 40 does not perform color correction.

Meanwhile, the memory unit 50 stores predetermined reference time information t0 in the memory unit 50 instead of the reference frame number f0, and the color correction area is detected from the reference time t0 stored by the controller 40. If the time t is large, the color coordinate value may be changed.

Accordingly, the controller 40 is configured to change the color coordinate value in the color correction area when a predetermined number of correction target color pixels are continuously detected over a predetermined number of frames in the color correction area in the processing target video signal. 24).

For example, in the case of a soccer or baseball game relay, the grass color included in the color to be corrected for a long time may be detected.

Accordingly, the controller 40 detects the color correction region displaying the turf color in a predetermined number of consecutive frames, and the detected pixel number P of the color correction region is larger than the reference pixel number P0 and the turf color When the detected frame number f is larger than the reference frame number f0, the image quality is improved by adjusting the brightness and the luminance by correcting the color coordinate value of at least one of the hue and saturation of the color correction area.

As a result, it may be selectively performed only when image quality improvement is required.

Hereinafter, the control process of the image processing apparatus 100 according to the above configuration will be described with reference to FIG. 3.

First, the signal receiver 10 receives an image signal (S10).

Here, the signal receiver 10 may be connected to a video device to receive a video signal, receive a broadcast signal through the antenna 12, and separate the video signal from the received broadcast signal.

Next, the controller 40 detects the color correction area A corresponding to the color to be corrected from the received image signal (S20).

In addition, the controller 40 detects the number P of pixels included in the color correction area A during successive predetermined frames (S30).

Next, the number of pixels P detected in step S30 is compared with the number of previously stored reference pixels P0 (S40).

As a result of the comparison in step S40, when the detected number of pixels P is equal to or greater than the reference number of pixels P0, the controller 40 calculates the number of frames f in which the pixels included in the color correction area A are detected ( S50).

Next, the frame number f calculated in step S50 is compared with the previously stored reference frame number f (S60).

As a result of the comparison in step S60, when the calculated frame number f is equal to or greater than the reference frame number f0, the control unit 40 changes the color coordinate value in the color correction area (S70).

Here, the controller 40 determines that the number of pixels P detected as a result of the comparison in step S40 is smaller than the reference number of pixels P0, or the number f of frames calculated as a result of the comparison in step S60 is greater than the number of reference frames f0. If small, do not perform color correction.

As mentioned above, the present invention has been described in detail through preferred embodiments, but the present invention is not limited thereto and may be variously implemented within the scope of the claims.

As described above, the image processing apparatus according to the present invention can selectively perform image quality improvement only when necessary to adjust the display state of the image signal.

Claims (5)

In the image processing apparatus, An image quality improving unit for performing color correction by changing a color coordinate value of a color correction area corresponding to a predetermined correction target color in the image signal by a predetermined range; And a controller configured to control the image quality improvement unit to change the color coordinate value in the color correction region when a predetermined number or more of the corresponding color pixels are continuously detected in the color correction region in the color correction region in the target image signal. Image processing apparatus, characterized in that. The method of claim 1, And the controller changes a color coordinate value of at least one of hue and saturation of the region to be corrected. The method according to claim 1 or 2, The apparatus may further include a memory unit configured to store predetermined reference pixel number information and setting values including predetermined reference frame number information. The controller detects the number of pixels included in the region to be corrected during a predetermined frame, compares the detected number of pixels with the number of reference pixels, calculates and calculates the number of frames in which the pixels included in the color correction region are detected. And comparing the number of frames with the reference number of frames, and performing color correction based on the comparison result. In the control method of the image processing apparatus, Receiving an image signal including a predetermined color to be corrected; And performing color correction by changing the color coordinate values in the color correction area when a predetermined number or more of the corresponding color pixels are continuously detected over a predetermined number of frames in the color correction area corresponding to the color to be corrected. Control method of an image processing apparatus, characterized in that. The method of claim 4, wherein Detecting the number of pixels included in the color correction region during the predetermined frame from the received image signal, and comparing the detected number of pixels with a predetermined reference pixel number; Calculating a number of frames for detecting the pixels included in the color correction area, and comparing the calculated number of frames with a predetermined reference frame number, The performing of the color correction comprises controlling the color based on the comparison result.

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