KR20060013213A - Display apparatus - Google Patents

Abstract

The present invention relates to a display apparatus, and more particularly, to a display apparatus for receiving frame data of an image from a signal source, the display apparatus comprising: a motion calculating unit for calculating a degree of movement of a current frame based on consecutive frames; When the motion degree calculated from the motion calculation unit is greater than a predetermined upper limit reference value, it characterized in that it comprises a sharpness control unit for reducing the picking size for the frame data.

As a result, it is possible to adjust sharpness that is adapted to the frequency characteristics of the motion and the input video signal and to display an image with low noise.

Sharpness

Description

Display apparatus

1 is a schematic block diagram of a display device according to an embodiment of the present invention;

Figure 2 is a graph showing the size of the picking corresponding to the degree of movement in accordance with an embodiment of the present invention,

3 is a schematic block diagram of a display device according to another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: display unit 20: frame memory

30: motion calculation unit 40: input unit

50: sharpness control unit 60: scaler

70: source detector 80: signal source

The present invention relates to a display apparatus, and more particularly, to a display apparatus for improving sharpness by minimizing peaking of noise components.

Display devices generally have a built-in scaler. The scaler is for converting the resolution of the input video signal into a resolution set in the display apparatus and outputting the resolution.

The resolution of the input video signal depends on the signal source or its signal type. The resolution may be expressed as the number of clocks or the number of data processed for a certain frame period. For example, in the case of a high-definition TV, the clock frequency output from the scaler is 75 [MHz], whereas the input analog video signal has a clock frequency of 13 [MHz]. In the frequency component, the signal bandwidth is about 6.5 [MHz], which is a 3dB frequency for an analog signal, while about 32.5 [MHz] is about a signal bandwidth for a high-definition TV.

The up-scaled output signal is input to an image enhancer in the rear stage, and the image enhancer applies peaking for each band to adjust sharpness. For example, the image enhancer greatly emphasizes the level of a signal of a high band among frequency components of the video signal to increase the sharpness of the video signal.

In the above example, since the input video signal is limited to the frequency band of 0 to 6.5 [MHz], further frequency components added through the scaler are calculated based on the original video. However, if peaking is applied to increase the clarity of the scaler output signal, a frequency component near 32 [MHz] is emphasized and only a noise component rather than the input image itself is amplified.

Meanwhile, when peaking is applied to a video signal having a large motion of an image to increase sharpness, motion artifacts such as jagging and tearing may increase. In order to obtain a more desirable image, it is desirable to reflect the degree of movement of the image in the sharpness control.

Accordingly, an object of the present invention is to provide a display apparatus for adjusting sharpness adaptively to a frequency band and a degree of motion of an input image.

According to an aspect of the present invention, there is provided a display apparatus for receiving frame data of an image from a signal source, the display apparatus comprising: a motion calculating unit for calculating a degree of movement of a current frame based on a continuous frame; When the movement degree calculated from the motion calculation unit is greater than a predetermined upper limit reference value, it is achieved by a display device comprising a sharpness adjusting unit for reducing the picking size for the frame data.

The sharpness controller may increase the peaking size of the frame data when the movement degree is smaller than a predetermined lower limit reference value.

The display apparatus may further include a scaler configured to perform a predetermined signal processing on the frame data from the signal source and output the signal to the sharpness controller, wherein the sharpness controller is configured based on the clock frequency of the frame data input to the scaler. The frequency range for picking frame data from the frame can be adjusted.

In addition, according to the present invention, there is provided a display apparatus comprising: a scaler for processing frame data from a signal source; And a sharpness adjuster for picking an output signal of the scaler in a predetermined frequency range corresponding to the clock frequency of the frame data input to the scaler.

Here, the display apparatus further comprises at least one of a frequency detector for detecting a clock frequency of the frame data input to the scaler and a source detector for detecting a signal source for providing the frame data to the scaler; The scaler sets a frequency range to be picked based on a clock frequency detected from the frequency detector; The scaler may determine the clock frequency of the frame data according to the signal source and set the frequency range to be picked.

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

1 is a block diagram of a display device according to an exemplary embodiment of the present invention.

As shown in FIG. 1, the display apparatus according to the present exemplary embodiment includes a display unit 10, a frame memory 20, a motion calculating unit 30, an input unit 40, and a sharpness adjusting unit 50.

The display unit 10 is for displaying an input image signal, and may include a module such as a CRT, an LCD, a PDP, a DMD, and a driving circuit of each module.

The frame memory 20 is for storing image signals from the scaler in units of frames. Here, the image signal may be a signal including luminance information, color difference information, and the like, and the stored data includes image information of at least one previous frame. When scaling of the video signal is not required, the video signal may be directly input from a signal source, and may further include an appropriate controller for data access of the frame memory 20.

The motion calculating unit 30 calculates the degree of motion of the current frame based on the stored data of the frame memory 20. The degree of motion is a quantification of the degree of motion of the whole image, and can be quantified in various ways. For example, in the case of MPEG, the motion vector included in the current frame may be summed to quantitatively express the motion. In addition, various methods may be devised, such as quantifying the degree of motion by evaluating the change in luminance level for the same pixel as the whole frame.

The input unit 40 is for receiving the sharpness information from the user for setting the sharpness of the display apparatus, and may be implemented as a remote controller, a touch panel, a control panel, or the like.

The sharpness controller 50 adjusts the sharpness by applying a peaking to the image signal input from the scaler. At this time, the sharpness is adjusted according to the input signals from the motion calculation unit 30 and the input unit 40.

When the image signal is input to the sharpness controller 50, the sharpness controller 50 applies a peaking signal to have a predetermined sharpness and then outputs it to the display unit 10.

At this time, the user can set the sharpness through the input unit 40, the sharpness control unit 50 picks up the input signal according to the set sharpness.

Meanwhile, the image signal is input to the frame memory 20 together with the sharpness controller 50 and stored. The motion calculator 30 calculates a motion degree of the current frame based on the frame data stored in the frame memory 20. As described above, the degree of movement can be quantified in various ways and output to the sharpness controller 50.

The sharpness adjusting unit 50 adjusts the size of the picking according to the calculation result of the motion calculating unit 30.

That is, referring to FIG. 2, when the degree of movement is smaller than the predetermined upper limit reference value, the size of the peaking is maintained at the preset value Max. On the other hand, if the degree of movement is greater than the upper limit, the picking size is reduced. The reduction width may be set to decrease linearly in the degree of movement, and when the degree of movement is greater than the lower limit reference value, the sharpness control unit 50 maintains the peaking size at a minimum value.

According to the present embodiment, motion artifacts can be reduced by adjusting the size of the picking according to the degree of motion.

3 is a schematic block diagram of a display device according to another embodiment of the present invention. As shown in the drawing, the display apparatus includes a display unit 10, a sharpness controller 50, a scaler 60, and a source detector 70.

The scaler 60 is for converting the resolution of the video signal input from the signal source 80 to a preset resolution. Here, the resolution of the display device is set in advance by the specification of the LCD module or the like or by the user's setting.

The source detector 70 detects which video signal information source currently provides the video signal to the scaler 60. Specifically, it may include an integrated configuration for detecting the connection state, the input signal type and the signal characteristics of the communication interface for connecting to the signal source 80.

The sharpness controller 50 adjusts the sharpness by amplifying or reducing the high frequency components of the video signal before being scaled by the scaler 60. Therefore, it is necessary to adjust the sharpness by determining the appropriate peaking frequency range according to the frequency characteristic of the video signal before scaling.

That is, when an analog video signal having a frequency band of 0 to 6.5 [MHz] is input, the sharpness controller 50 performs picking by selecting a frequency range near 6 [MHz]. To this end, the sharpness control unit 50 should know the frequency characteristics of the video signal input to the scaler 60.

The input frequency characteristic and the peaking frequency range of the scaler 60 are obtained as follows.

First, the source detector 70 detects information on the signal source 80 that provides an image signal to the scaler 60 and provides the information to the sharpness controller 50. The sharpness controller 50 determines the frequency characteristic of the input signal corresponding to the detected result based on the detection result and sets the frequency range to be picked. At this time, the sharpness control unit 50 must separately store the frequency characteristic information corresponding to the source information in advance.

For example, when the VCR is the signal source 80, the source detector 70 detects the information that the VCR is the signal source 80 and provides it to the sharpness controller 50. The sharpness control unit 50 has predetermined frequency characteristic information corresponding to the VCR, thereby setting the frequency range to be picked.

As a result, the sharpness may be adjusted according to the frequency characteristic of the original video signal without depending on the frequency of the upscaled signal from the scaler 60, thereby preventing the amplification of noise.

In this embodiment, the frequency characteristic of the image signal input to the scaler 60 can be measured in other ways, of course. That is, the clock frequency input to the scaler 60 may be measured in place of the detection of the signal source 80, and the measurement result may be used as a determination basis for the peaking frequency of the sharpness controller 50.

In addition, the display apparatus of the present embodiment further includes a motion calculating unit 30, a frame memory 20, and the like, measuring the degree of movement and adjusting the sharpness together with the detection result of the source detecting unit 70. It would be more desirable to reflect on this.

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that the embodiments may be modified without departing from the spirit or spirit of the invention. . It is intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

As described above, according to the present invention, it is possible to adjust the sharpness to adapt to the frequency characteristics of the motion and the input video signal, and to display an image with low noise.

Claims (5)

In the display device receiving the frame data of the image from the signal source, A motion calculation unit for calculating a motion degree of the current frame based on the continuous frames; And a sharpness controller for reducing the peaking size of the frame data when the motion degree calculated from the motion calculator is greater than a predetermined upper limit reference value. The method of claim 1, And the sharpness controller increases the peaking size of the frame data when the movement degree is smaller than a predetermined lower limit reference value. The method of claim 1, And a scaler configured to perform predetermined signal processing on the frame data from the signal source and output the signal to the sharpness controller. And the sharpness adjusting unit adjusts a frequency range for picking frame data from the scaler based on a clock frequency of the frame data input to the scaler. In the display device, A scaler for processing frame data from the signal source; And a sharpness adjuster for picking an output signal of the scaler in a predetermined frequency range corresponding to a clock frequency of the frame data input to the scaler. The method of claim 4, wherein At least one of a frequency detector for detecting a clock frequency of the frame data input to the scaler and a source detector for detecting a signal source for providing the frame data to the scaler; The scaler sets a frequency range to be picked based on a clock frequency detected from the frequency detector; And the source detector further comprises determining the clock frequency of the frame data according to the signal source to set the frequency range to be picked.

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