KR101583078B1 - Apparatus and method for displaying - Google Patents

Abstract

A display device according to an embodiment of the present invention includes a display panel; A signal input unit for receiving a video signal to be displayed through the display panel; A signal processor including demultiplexing means for demultiplexing a video signal with respect to a signal received through the signal input unit or a decoding unit for decoding a received video signal; And a frame compensator for measuring an amount of motion variation between frames of the video signal output through the signal processor and generating an insert frame to be inserted between the current frame and the previous frame based on the amount of motion variation, The compensation unit includes a motion estimator for measuring a motion variation between frames using a previous frame and a current frame of a video signal output through the signal processing unit and a motion estimation unit for estimating a motion variation between the current frame and the current frame, And a motion compensator for generating an insert frame to be positioned between the previous frame and the previous frame, wherein the frame compensator converts the resolution of the previous frame, the insert frame, and the current frame, and outputs the converted resolution to the display panel.

Display device, MEMC

Description

[0001] Apparatus and method for displaying [0002]

The present invention relates to a display device and a display method, and more particularly, to a display device and method capable of reducing border noise generated at a frame edge during motion estimation and motion compensation (MEMC) for reducing a frame period of an image signal It is about.

In recent years, conventional CRTs have been replaced by new display systems. For example, flat panel displays such as LCDs or PDPs that are applied to TVs and computer monitors are advantageous in that they are thin and flat in size and light in weight.

CRT and LCD have a big difference in display principle. CRTs produce very short light by phosphors, each of which is displayed for a very short period of one frame period. This kind of display principle is called impulse-time. On the other hand, an LCD has a sample and hold characteristic in which one image is displayed while maintaining the same RGB luminance over the entire frame period, which is called a hold-type display of the cow.

The cause of motion blur in these LCDs is two, long response time and hold-type display characteristics described above. In order to fundamentally increase the response time of the LCD, the liquid crystal material and the cell design must be optimized. Currently, some overdrive methods based on constant LUTs have been widely applied to reduce long response time. This overdrive can accelerate the response of the liquid crystal crystal. Currently, many LCD panels can limit the gradation response time to 8ms or less.

However, although this response time can be reduced to near zero, motion blur still occurs due to the nature of the holder-type display. As a method for reducing motion blur due to the characteristics of such a hold-type display, there is a Motion Estimation Motion Compensation (MEMC) method.

As a straightforward method, the frame period is reduced by inserting a new one frame between each two original frames. In this method, it is essential to predict the inserted frame corresponding to the original frame, and motion estimation and motion compensation are required to predict a new frame.

In the conventional MEMC method, since motion prediction and motion compensation are performed on an image frame having the same size as the resolution of the LCD module, a motion detection error occurs at the edge of a frame having a large amount of motion and a large amount of data, A border noise is generated.

As a result, an attempt to enable a user to view a moving image having an enhanced image quality by using the MEMC method may be faded as a large number of noise is generated at the edge of the frame.

The present invention creates a sat frame to be inserted between a previous frame and a current frame by the MEMC method and then adjusts the resolution of the frames to match the resolution of the display panel so as to remove noise that may occur at the edge of the frame The present invention also provides a display device and a display method capable of displaying an image.

A display device according to an embodiment of the present invention includes a display panel; A signal input unit for receiving a video signal to be displayed through the display panel; A signal processor including demultiplexing means for demultiplexing a video signal with respect to a signal received through the signal input unit or a decoding unit for decoding a received video signal; And a frame compensator for measuring an amount of motion variation between frames of the video signal output through the signal processor and generating an insert frame to be inserted between the current frame and the previous frame based on the amount of motion variation, The compensation unit includes a motion estimator for measuring a motion variation between frames using a previous frame and a current frame of a video signal output through the signal processing unit and a motion estimation unit for estimating a motion of the current frame based on a motion variation amount between frames calculated by the motion estimation unit. And a motion compensator for generating an insert frame to be positioned between the previous frame and the previous frame, wherein the frame compensator converts the resolution of the previous frame, the insert frame, and the current frame, and outputs the converted resolution to the display panel.

According to another aspect of the present invention, there is provided a display method comprising: receiving an overscanned video signal from a broadcast station or an external source; Measuring a motion variation between a previous frame and a current frame from the received video signal; Generating an insert frame to be inserted between the previous frame and the current frame according to the motion variation amount; Adjusting a resolution for each of the previous frame, the insert frame, and the current frame; And sequentially displaying the previous frame, the insert frame, and the current frame on the screen.

According to the display apparatus and method of the present invention, the noise generated at the edge of the image frame can be removed while displaying a high-quality moving image with a short frame period.

Further, there is an advantage that noise generated according to motion tracking and motion compensation can be eliminated even if a separate hardware configuration is not realized in addition to the MEMC module.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings. It should be understood, however, that the scope of the inventive concept of the present embodiment can be determined from the matters disclosed in the present embodiment, and the spirit of the present invention possessed by the present embodiment is not limited to the embodiments in which addition, Variations.

In the following description, the word " comprising " does not exclude the presence of other elements or steps than those listed.

1 is a view illustrating a configuration of a display device according to an embodiment of the present invention.

Referring to FIG. 1, the display apparatus of the embodiment includes a signal input unit 110 for receiving a broadcast signal or a signal from an external source, a signal processing unit 120 for signal processing such as demultiplexing or decoding a received signal, A frame compensator 130 for shortening a frame period by inserting an insert frame between each frame of the processed video signal, and a display panel 130 for displaying each frame whose resolution has been converted by the frame compensator 130 140).

In detail, the signal input unit 110 may include a tuner for tuning a broadcast signal of a specific channel selected by the user. The signal input unit 110 may include an AV terminal, an S-video terminal, a COMPONENT terminal, A PC-signal terminal, and the like.

The signal processing unit 120 encodes the signal input through the signal input unit 110 to be displayed on the display panel 140, demultiplexes the received broadcast signal, As shown in FIG.

The signal processor 120 may include a scaler for converting the resolution of the decoded video signal. In this case, the format of the video signal converted by the scaler may be higher than the resolution of the display panel 140 .

For example, when the display panel 140 supports full HD and transmits a full HD signal from a broadcasting station, a video signal included in a signal transmitted from the broadcasting station usually has a resolution of 2016 * 1135. However, the image signal having such a resolution is converted into the resolution of 1920 * 1080 by the frame compensator 130 according to the embodiment of the present invention.

That is, according to the embodiment of the present invention, the resolution of the video signal transmitted from the broadcasting station is determined by generating an insert frame by an algorithm in the frame compensator 130, and then changing the resolution of the insert frame, Is performed.

According to the process of processing the video signal, the noise generated at the edge of the frame is removed by inserting the frame according to the motion prediction result between the previous frame and the current frame by the MEMC method or the like.

Specifically, a frame compensator 130 for reducing a frame period of an image signal demultiplexed or decoded through the signal processor 120 to display a high-quality image will be described.

The frame compensator 130 inserts an insert frame generated according to motion tracking and motion prediction between frames of a video signal received through the signal input unit 110. After generating the insert frame, The resolution of each frame is also changed according to the resolution of the display panel 140. [

That is, in the process of generating the insert frame by the frame compensator 130, the overscanned image frame is scanned over the resolution of the display panel 140, and the image frame outputted through the frame compensator 130 Each of which is converted to correspond to the resolution of the display panel 140.

The frame compensator 130 divides the current frame of the video signal output through the signal processor 110 into a plurality of blocks of a predetermined size and outputs a current block for motion estimation and a predetermined A motion estimation unit 131 for measuring a motion variation between frames by comparing the search regions of the current frame and the previous frame, and an insert frame generation unit 130 for generating an insert frame to be positioned between the current frame and the previous frame according to the amount of motion variation between frames calculated by the motion estimation unit And a motion compensation unit 132 for performing motion compensation.

The frame compensating unit 130 includes a resolution adjusting unit 133 for changing an insert frame generated by the motion compensating unit 132 and a resolution of a previous frame and a current frame. The resolution adjusting unit 133 performs an operation of changing the resolution by removing an image from an edge of the over-scanned image frame, thereby eliminating the border noise generated by the motion tracking and the motion prediction.

As a result, the frame compensator 130 generates an oversampled insert frame using the oversampled previous frame and the current frame transmitted from the broadcasting station according to the MEMC technique, and inserts the insert frame into the previous frame and the current frame And then performs resolution conversion and removal of noise together by removing an edge area of each frame before outputting to the display panel 140 after inserting.

Unlike the case where an edge area of an overscaned image frame is removed by an existing scaler and then an insert frame is generated, an insert frame is generated and a resolution conversion process is performed. The noise can be removed.

For example, the motion estimating unit 131 and the motion compensating unit 132 of the frame compensating unit generate an insert frame through the motion tracking using the motion vector and the motion prediction for the over-scanned image frame of 2016 * 1134 resolution , The resolution adjusting unit 133 removes one area from the edge of the frame for each of the frames, thereby converting the resolution to 1920 * 1080, which is the resolution of the display panel 140.

2, when the display device receives an image signal for 60 frames per second, the frame period is reduced to 120 frames per second by the frame compensator 130, The resolution is converted after creating the insert frame.

The frame compensator 130 may further include a frame buffer memory 134 for storing a previous frame or a current frame to perform motion tracking and motion prediction operations, (110).

That is, when the resolution of the video signal included in the broadcast signal transmitted from the broadcasting station is 2016 * 1134, the frame buffer memory 134 has a capacity to store an image having a resolution of 2016 * 1134.

An embodiment of the present invention as described above will now be described with reference to the flowchart shown in FIG.

First, a video signal provided from a broadcasting station or an external source is a signal having a higher resolution than the resolution of the display panel 140, and is a kind of overscaned image.

When the display apparatus according to the present embodiment receives this video signal (S101), a demultiplexing process for separating the video signal from the received signal or a process for decoding the received encoded video signal is performed (S102) .

Next, the motion compensation amount for the subject or texture in the previous frame and the current frame is measured by the frame compensating unit 130 according to the embodiment (S103), and based on the measured result, An insert frame to be a predictive image is generated (S104).

Each of the previous frame, the insert frame, and the current frame is equal to the resolution of the image initially received through the signal input unit 110, so that a resolution change process is performed to match the resolution with the resolution of the display panel (S105). That is, a process for converting the pixels of the frame is performed after generating the insert frame.

The frame compensator sequentially outputs a previous frame, an insert frame, and a current frame to be displayed through the display panel (S106).

According to this method, there is an advantage that a high-quality image can be provided to a user because no noise that may occur at the edge of the frame is substantially displayed on the screen according to motion tracking and motion prediction.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a configuration of a display device according to an embodiment of the present invention; FIG.

FIG. 2 is a view illustrating a configuration for receiving an over-scanned frame to generate an insert frame and adjusting a resolution according to an embodiment of the present invention;

3 is a view for explaining a display method according to an embodiment of the present invention;

Claims (6)

A signal input unit for receiving a signal including a first video signal; A demultiplexing unit for demultiplexing the signal received through the signal input unit and separating the first video signal and the audio signal, or a decoding unit for decoding the received signal; Wherein the motion compensation unit measures the amount of motion variation between frames of the first video signal output through the signal processing unit, generates an insert frame to be inserted between a current frame and a previous frame based on the motion variation amount, Insert frame and the current frame, and removes a predetermined area from an edge area of each of the previous frame, the insert frame, and the current frame, and converts the resolution of the previous frame, the insert frame, A frame compensator for outputting the frame compensator; And And a display panel for outputting the second video signal output from the frame compensator, The frame compensator A current frame of the first video signal output through the signal processing unit is divided into a plurality of blocks of a predetermined size and a subject or texture of a current frame divided by the plurality of blocks is compared with a subject or texture of the previous frame A motion estimator for measuring a motion variation between the current frame and the previous frame; A motion compensation unit for generating the insert frame based on the measured motion variation amount; And And a frame buffer memory for storing the previous frame and the current frame, The resolution of the first video signal is different from the resolution of the second video signal, Wherein the frame buffer memory includes a storage capacity corresponding to a resolution of the first video signal Display device. The method according to claim 1, The frame compensator And a resolution adjusting unit for converting the resolutions of the previous frame, the insert frame, and the current frame, The resolution adjusting unit The resolution of each of the previous frame, the insert frame, and the current frame is adjusted so that the resolution of the first video signal included in the signal received through the signal input unit corresponds to the resolution of the display panel Display device. 3. The method of claim 2, The resolution adjusting unit Insert frame between the previous frame and the current frame, and then adjust the resolution of the previous frame, the insert frame, and the current frame by inserting the generated insert frame from the edge area of each of the previous frame, To remove Display device. delete Receiving a first video signal from a broadcast station or an external source; A current frame of the received first video signal is divided into a plurality of blocks of a predetermined size and a subject or texture of a current frame divided into the plurality of blocks is compared with a subject or texture of a previous frame, Measuring the amount of motion variation between the first and second frames; Generating an insert frame to be inserted between the previous frame and the current frame based on the measured motion variation; Inserting the generated insert frame between the previous frame and the current frame; Removing a predetermined area from an edge area of each of the previous frame, the insert frame, and the current frame; Adjusting each of the previous frame, the insert frame and the current frame to the resolution of the display for outputting the video signal, respectively; And Displaying on the display a second video signal comprising an adjusted previous frame, an insert frame and a current frame, The resolution of the first video signal and the resolution of the second video signal are different from each other Display method. delete

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