KR100761475B1 - Image display device and method for image quality improvement - Google Patents

Abstract

A video display device and a method for improving image quality thereof are disclosed. This video display device calculates an artifact level difference, which is a difference between an artifact level of a current frame and an artifact level of a previous frame, and compares the difference between an artifact level and a preset artifact level reference value. The determination unit determines whether or not the frame is an error frame that is an error frame, and if it is determined that the current frame is an error frame, a compensation unit that adjusts the artifact level of some of the frames subsequent to the current frame. This determines whether an error frame has occurred during scene transition by using the artifact level, and adjusts the artifact level of the frame adaptively to the change of the artifact level when an error frame occurs, so that artifacts of consecutive frames after the error frame are generated. By compensating for the level, it is possible to minimize the sharp deterioration caused by the error frame during scene transition.

Artifact Compensation, Error Frame Compensation, Cutaway

Description

Image display device and method for image quality improvement

1 is a block diagram of an image display apparatus according to an embodiment of the present invention, and

2 is a flowchart illustrating a method of improving image quality of an image display apparatus according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: decoder 120: detector

130: calculation unit 140: storage unit

150: determination unit 160: compensation unit

The present invention relates to an image display apparatus and a method for improving image quality thereof. More particularly, the present invention relates to an image display apparatus, and more particularly, to determine whether an error frame occurs during scene transition using an artifact level, and to adjust an artifact level when an error frame occurs. The present invention relates to a compensating video display device and a method for improving image quality thereof.

As display devices become larger in the DTV era, artifact problems, which were not noticeable in the past, are emerging. In other words, when displaying images on a CRT monitor or a small TV, artifacts were not a problem, but as the TV screen became larger and larger in the DTV era, various artifact problems were highlighted. The input image input as digital data has been processed such as CE (Contrast Enhancement), DE (Detail Enhancement), etc. to obtain a clearer image, but has a side effect of generating artifacts that were not a problem before.

Artifacts refer to unnatural elements in the image, and artifact levels refer to the degree of loss of the image. This artifact occurs when the correlation between the previous frame and the current frame is incorrectly estimated.

On the other hand, the block-based video compression method can reduce the amount of data, such as motion vectors, difference images when compressing a continuous image, it is not necessary to compress much.

However, in the conventional block-based video compression method, when the correlation between the current frame and the previous frame is large, the image quality is kept constant during the scene transition. However, when the correlation between the previous frame and the current frame is small, the image quality is rapidly changed during the scene transition. Will fall.

In particular, when the channel / buffer is restricted, when the correlation between the previous frame and the current frame is small, the compression rate increases by increasing the quantization level (Q value) by increasing the compression target data during the scene changeover. As a result, a sudden deterioration in image quality occurs during scene transition.

Accordingly, an object of the present invention is to determine whether an error frame occurs when switching scenes using an artifact level in order to prevent a sudden deterioration of image quality, and adjust an artifact level when an error frame occurs to compensate for an artifact level. An apparatus and a method for improving image quality thereof are provided.

According to an aspect of the present invention, there is provided an image display apparatus comprising: a calculator configured to calculate an artifact level difference, which is a difference between an artifact level of a current frame and an artifact level of a previous frame; A determination unit which compares the difference between the artifact levels and a preset artifact level reference value, and determines whether the current frame is an error frame that is an error frame when a scene is changed through a comparison result; And if the current frame is determined to be an error frame, a compensator configured to adjust an artifact level of some frames among subsequent frames after the current frame.

Preferably, when the difference between the artifact level exceeds the artifact level reference value, the determination unit may determine that the current frame, which is a scene switched during the scene change, as an error frame.

Preferably, when the determination unit determines that the current frame is an error frame, the compensator adjusts the artifact level of some of the frames subsequent to the current frame in the range below the artifact level of the current frame. It is done.

On the other hand, the image quality improvement method of the video image display device of the present invention, the step of calculating the artifact level difference that is the difference between the artifact level of the current frame and the artifact level of the previous frame, comparing the difference between the artifact level and the preset artifact level reference value Determining whether the current frame is an error frame that is an error frame during scene change through the comparison result, and if the current frame is determined to be an error frame, determine the artifact level of some of the frames subsequent to the current frame. Characterized in that it comprises a step of adjusting.

Preferably, in the determining step, when the difference between the artifact levels exceeds the artifact level reference value, the current frame, which is a scene converted during the scene change, is determined as an error frame, and in the adjusting step, when the current frame is determined to be an error frame, The artifact level of some of the consecutive frames after the frame is adjusted upward in the range below the artifact level of the current frame.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

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

Referring to FIG. 1, the image display apparatus includes a decoder 110, a detector 120, a storage 130, a calculator 140, a determiner 150, and a compensator 160.

First, the decoder 110 decodes an input compressed image and configures the frame. The decoder 110 decodes a motion vector, a discrete cosine transform (DCT) coefficient, a block mode (Inter mode / Intra mode / Skip mode), and a Q value, which is a quantization coefficient, for each frame obtained from the compressed image. Output decoded information to be included.

The detector 120 detects an artifact level of a continuously input frame using the received decoding information. In this case, in detecting the artifact level, the detector 120 may use one of the decoding information, may use all of the decoding information, or may selectively use the decoding information. Here, the artifact level refers to the degree of loss of the image.

In detail, as an example of detecting an artifact level using a Q value, the detector 120 detects the received Q value as an artifact level directly, or generalizes the received Q value to detect an artifact level. In other words, when the generalization of the Q value is described as an example, the detection unit 120 detects an artifact level generalized to 1 when the Q value is 1 to 5, and generalized to 2 when the Q value is 6 to 10. Detects artifact levels.

In addition, the detector 120 may detect the artifact level of the input frame by using the sum of all the difference values of the boundary values between the blocks in the continuously input frame. At this time, the detection unit 120 may detect the artifact level by generalizing a value obtained by adding all the difference values of the block boundary values to a specific value within a predetermined range, similar to the generalization of the above-described Q value.

The storage unit 130 stores a preset artifact level reference value, and stores the artifact level detected by the detector 120.

The calculator 140 calculates and outputs a difference value between the artifact level of the current frame received from the detector 120 and the artifact level of the previous frame read from the storage 130.

The determination unit 150 compares the artifact level difference value and the artifact level reference value received from the calculation unit 140 with reference to the storage unit 130, and the frame in which an error occurs when switching scenes (hereinafter, 'error'). Frame '). Here, the error frame is a frame in which data is lost due to an error.

In detail, since the artifact level is the loss of the image, if the artifact level difference value exceeds the artifact level reference value, the determination unit 150 determines that the loss of the image is large so that the frame of the scene switched during the scene change is an error frame. Judging by

The compensator 160 compensates the artifact level by adjusting the artifact level with respect to some of subsequent frames after the error frame when it is determined that the frame of the scene converted when the scene is changed by the determiner 150 is an error frame. . That is, the compensator 160 adjusts the artifact level of some of the consecutive frames after the current frame, which is an error frame, within the range not exceeding the artifact level of the current frame.

2 is a flowchart illustrating a method of improving image quality of an image display apparatus according to an embodiment of the present invention.

Referring to FIG. 2, first, the decoder 110 outputs decoding information obtained from a compressed image when decoding (S210). In this case, the decoder outputs decoding information of each frame composed of several blocks. Here, the decoding information includes a motion vector, a discrete cosine transform (DCT) coefficient, a block mode (Inter mode / Intra mode / Skip mode), and a Q value that is a quantization coefficient.

Subsequently, the detector 120 detects an artifact level of a frame which is continuously input using the received decoding information (S220). In this case, the detector 120 may detect the artifact level of the input frame by using the sum of the difference values of the boundary values between the blocks in the frames that are continuously input.

Furthermore, in detecting the artifact level, the detector 120 may use one of the decoding information, all of the decoding information, or selectively use the decoding information. Here, the artifact level refers to the degree of loss of the image.

In operation S230, the calculator 140 calculates a difference value between the received artifact level of the current frame and the artifact level of the previous frame.

Subsequently, the determination unit 150 compares the calculated artifact level difference value with a predetermined artifact level reference value, and determines whether an error frame is generated during scene change based on the comparison result (S220).

If the artifact level difference value exceeds the artifact level reference value, the determination unit 150 determines the frame of the scene switched when the scene is changed as an error frame (S230).

Specifically, since the artifact level is the loss of the image, if the artifact level difference value exceeds the artifact level reference value, the determination unit 150 determines that the loss of the image is large so that the frame of the scene switched during the scene change is an error frame. Judging by.

Subsequently, if it is determined that the frame of the switched scene is an error frame, the compensator 160 compensates the artifact level by adjusting the artifact level of some frames subsequent to the current frame that is the error frame (S240).

In detail, when it is determined that the frame of the scene switched during the scene change in operation S250 is an error frame, the compensator 160 displays the artifact level of some frames among the subsequent frames after the current frame determined as the error frame. Adjust up in the range that does not exceed the artifact level of the frame.

That is, the compensator 160 adjusts the artifact level of some frames to an approximation of the artifact level of the current frame adaptively to the change of the artifact level, thereby compensating the artifact level for subsequent frames after the current frame determined as the error frame. .

As described above, according to the present invention, it is possible to determine whether an error frame is generated when switching scenes using an artifact level, and adjust an artifact level of a frame adaptively to an artifact level change when an error frame occurs, thereby causing an error frame. Afterwards, by compensating the artifact level of successive frames, it is possible to minimize the sharp deterioration of image quality caused by error frames during scene transition.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

Claims (5)

A calculator configured to calculate an artifact level difference that is a difference between an artifact level of a current frame and an artifact level of a previous frame; A determination unit which compares the difference between the artifact levels and a preset artifact level reference value, and determines whether the current frame is an error frame that is an error frame when a scene is changed through a comparison result; And And a compensator configured to adjust an artifact level of some of the subsequent frames after the current frame, if the current frame is determined to be an error frame. The method of claim 1, The determination unit, And when the difference between the artifact levels exceeds the artifact level reference value, determine the current frame as the error frame, which is a scene converted when the scene changes. The method of claim 1, The compensation unit, If the determination unit determines that the current frame is an error frame, the image display apparatus upwardly adjusts an artifact level of a part of frames subsequent to the current frame within an artifact level of the current frame. . Calculating an artifact level difference that is a difference value between an artifact level of a current frame and an artifact level of a previous frame; Comparing the difference between the artifact levels and a preset artifact level reference value, and determining whether the current frame is an error frame that is an error frame when a scene is changed through a comparison result; And And if the current frame is determined to be an error frame, adjusting an artifact level of some of subsequent frames after the current frame. The method of claim 4, wherein The determining step, When the difference between the artifact levels exceeds the artifact level reference value, the current frame, which is a scene switched during the scene change, is determined as the error frame. The adjusting step, If the current frame is determined to be an error frame in the determination step, the artifact level of some of the subsequent frames after the current frame is adjusted upward in the range below the artifact level of the current frame. .

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