KR20080041057A - Image processing apparatus - Google Patents

Abstract

An image processing apparatus is provided to move the display image and to remove the afterimage of the image, thereby safely displaying the important information without losing such as the character broadcasting. A display member(10) has a display area for displaying an image. A storing member(11) stores the moving amount and moving period relating the predetermined moving direction of the display image at the display area. A scale member(12) produces the display image so that the entire display image is displayed in the display area although the display is moved as much as the moving amount. A control member(14) discriminates the moving amount and moving period corresponding to the moving direction from the storing member and controls the scale member so that the display image is moved in the display area on the basis of the moving amount and the moving period. The control member controls the scale member so that the size of the display image is controlled according to the moving amount.

Description

Image Processing Equipment {IMAGE PROCESSING APPARATUS}

1 is a view illustrating a phenomenon in which a display image leaves a display area as an orbit function is performed;

2 is a schematic block diagram of an image processing apparatus according to an embodiment of the present invention;

3 is a flowchart illustrating a control method of an image processing apparatus according to an embodiment of the present invention; And

4 illustrates a process of downscaling and moving the display image according to the control procedure of FIG. 3.

The present invention relates to an image processing apparatus. More particularly, the present invention relates to an image processing apparatus in which an entire display image can be displayed without distortion in a display area while removing a residual image of the image by moving the display image.

If a still image or a slowly changing image is displayed on a panel such as a PDP for a long time, an afterimage remains in place and the pixels are deteriorated.

One of the well-known methods for solving the technical problem is an orbit function for periodically moving the displayed image (hereinafter referred to as a "display image") in the left / up / right / down direction.

For example, in a panel having a predetermined size, first, the display image is moved by three pixels to the left, and after a predetermined movement period, the display image is moved upward by three pixels. The pixel is moved by a pixel, and then moved by three pixels downward after the movement period elapses. Therefore, after 4 cycles, the display image returns to its original position. Of course, the moving amount is a fine size, freely selected to a size that can not be recognized by the human, the movement amount can also be adjusted differently depending on the direction.

However, in applying the conventional OBIT function, the display image is out of the display area and all the display images are not displayed while the display image is moved in the process of moving the display image because the size is the same between the display image and the display area. .

1 is a diagram illustrating a phenomenon in which a display image leaves the display area as the orbit function is performed.

Referring to FIG. 1, it can be seen that the display image 101 indicated by a dotted line does not coincide with the orbit function in the display area 100 of the display panel indicated by a solid line. As a result, the extinction portion 102 of the display image 101 outside the display area 100 cannot be displayed, and the virtual extinction portion 102 is indicated by hatching.

Since the user who concentrates on the center of the display image 101 does not recognize the extinction portion 102 already, it is common for the user to use the video device. However, when the user concentrates on the edge of the display image 101 or in the text broadcasting mainly displayed on the edge of the screen, it is easily recognized that the edge extinction portion 102 of the display image 101 has occurred. However, if the screen is non-linearly resized, this may not be a sufficient solution because the user may feel the image unnaturally.

Therefore, the user's reliability of the product may be maintained only by applying the orbit function so that the entire linearly scaled display image is included in the display area.

Therefore, an object of the present invention is to provide an image processing apparatus in which the entire display image is displayed in the display area in applying the orbit function.

According to an aspect of the present invention, there is provided an image processing apparatus comprising: a display unit having a display area for displaying an image; A storage unit which stores a movement amount and a movement period in a predetermined movement direction in which the display image is to be moved in the display area; A scale unit generating the display image so that the entire display image is displayed within the display area even if the display image is moved in the movement direction by the movement amount; And a control unit which reads the movement amount and the movement period corresponding to the movement direction from the storage unit and controls the scale unit to move the display image in the display area based on the movement period and the movement amount. It is done.

The control unit may further include a setting unit configured to control the scale unit to adjust the size of the display image according to the movement amount, or to receive a movement amount corresponding to the movement direction, wherein the controller is input through the setting unit. The scale unit may control to dynamically adjust the size of the display image according to the movement amount.

The scale unit may generate the display image such that the size of the display image in the movement direction is smaller by at least the amount of movement than the display area.

The apparatus may further include a user input unit configured to receive whether to select a predetermined afterimage prevention mode, and wherein the control unit causes the scale unit to generate the display image having the same size as the display area when the afterimage prevention mode is not selected. When the afterimage prevention mode is selected, the scale unit may control the generation of the display image so that the entire display image is displayed in the display area even if the display image is moved in the movement direction by the movement amount.

The image processing apparatus of the present invention refers to a TV, a monitor and a set top box coupled thereto, a device including a module for processing an image signal, and a combination thereof.

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

2 is a schematic block diagram of an image processing apparatus according to an embodiment of the present invention.

Referring to FIG. 2, the image processing apparatus of the present invention includes a display unit 10, a storage unit 11, a scale unit 12, a user input unit 13, and a controller 14.

The display unit 10 is a device having a display area for displaying an image, and is implemented by including a PDP panel, an LCD panel, an integrated circuit for driving them, and the like. Here, the display area is defined as an area of the screen on which an image is displayed.

The storage unit 11 is a storage medium for storing the movement amount and the movement period for each movement direction in applying the orbit function. The shift amount can be expressed as the number of shift pixels for each of the up / down / left / right directions, and can be set to the same size or to different sizes depending on the direction. The movement period represents the time interval between the movement in one direction and the movement in the next direction. The movement period is not necessarily constant, but is set at a constant time. Here, the movement amount and the movement period may be set in advance in the manufacturing process of the image processing apparatus, but it is preferable that the user can arbitrarily adjust as necessary, which will be described later in detail.

The scaler 12 adjusts an input video signal to a desired size and may be implemented using a known scaler. In the present embodiment, the scale unit 12 generates the display image so that all the display images can be displayed in the display area even if the display image moves by the movement amount stored in the storage unit 11. In addition, when the movement amount in each of the moving directions is changed, the size of the display image is adjusted in response to the movement amount. In adjusting the size of the display image, it is preferable to apply linear scaling so that all of the display image without distortion can be displayed.

In order for all the display images to be displayed in the display area even though the display image moves by the movement amount, the scale unit 12 must generate the display image so that the display image is at least smaller than the display area by the movement amount. For example, in the case of moving five pixels in the left direction, moving three pixels in the upward direction, moving five pixels in the right direction, and moving three pixels in the downward direction again, the scale unit 12 is left and right. At least five pixels corresponding to the left and right movement amount in the direction and at least three pixels corresponding to the vertical movement amount in the vertical direction should be adjusted so that the display image is smaller than the display area.

The user input unit 13 is for receiving input of movement amount, movement period and selection information of an afterimage prevention mode from a user, and is implemented using a remote controller, a control panel on the front surface, and the like. The afterimage prevention mode selection information is for allowing a user to select whether to execute the above-described orbit function.

The control unit 14 is to control the scaling and orbit functions of the scale unit 12 as a whole, and is implemented by a program representing the procedure and a processor performing the same.

3 is a flowchart illustrating a control method of an image processing apparatus according to an exemplary embodiment of the present invention, and FIG. 4 illustrates a process of downscaling and moving a display image according to the control procedure of FIG. 3.

3 and 4, the control operation of the controller 14 will be described in detail.

Referring to FIG. 3, in the control method of the present embodiment, a user inputs a movement amount and a movement period corresponding to a movement direction through the user input unit 13, and the controller 14 stores the movement amount in the storage unit 11. Starts from (S1). As described above, the moving amount and the moving period may be preset in the manufacturing process or may be arbitrarily adjusted by the user.

The user can select the afterimage prevention mode. Therefore, the controller 14 determines whether the afterimage prevention mode is set in the storage unit 11 by default, or whether information for selecting the afterimage prevention mode is newly input from the user input unit 13 (S2).

If the afterimage prevention mode is selected, the controller 14 controls the scaler 12 to downscale the display image (S3). At this time, the degree of downscaling should be determined according to a preset movement amount. Therefore, the controller 14 reads the movement amount corresponding to the movement direction from the storage unit 11 and allows the scale unit 12 to scale to an appropriate size based on the movement amount.

This process can be confirmed from (a) and (b) of FIG. In FIG. 4A, the display region 20 and the display image 30 are displayed in the same manner, but in FIG. 4B in which the down scale is applied, the display image 30 is smaller than the display region 20. Even if the orbit function is executed, a margin of a certain size is formed so that the display image 30 can be displayed on the display region 20 without leaving the display region 20. This margin portion should be determined according to the amount of movement, specifically at least as much as the amount of movement.

Next, the controller 14 controls the scale unit 12 to move the display image 30 by the movement amount while changing the movement direction in a predetermined order (S4). Referring to FIG. 4C, it can be seen that the display image 30 has moved to the right by a certain amount of movement.

Next, it is checked whether the movement cycle has elapsed continuously or in an interrupt manner (S5).

The display image 30 is displayed at the same position until the time elapsed by the movement period. On the other hand, when the time elapsed by the moving period is moved to the next moving direction the display image 30 (S4). Here, the image is moved downward by a certain amount of movement, as shown in Fig. 4 (d).

In the same manner, when a certain movement period elapses, the display image 30 is sequentially moved by a corresponding movement amount in the left direction and the upward direction. Corresponding drawings are shown in Figs. 4E and 4F. In particular, it is noted that the movement amount in the left direction is twice the movement amount in the right direction, and the movement amount in the upper direction is applied twice the movement amount in the downward direction. Finally, as shown in Fig. 4G, the display image 30 is moved to its original position.

 The control unit 14 determines whether there is selection information from the user input unit 13 for canceling the afterimage prevention mode or whether the afterimage prevention mode is canceled because a pre-reserved condition is satisfied (S6).

When the afterimage prevention mode is released, the controller 14 controls the scaler 12 to upscale the display image 30 to the original size and display the original image at the original position (S7).

Since the scale unit 12 linearly enlarges or reduces the display image 30, the scale unit 12 does not distort the image, and the reduced display image 30 is displayed within the display area 20 when the orbit function is applied. Therefore, it is possible to display all the display image 30 without disappearing the display image (30).

Although specific embodiments of the present invention have been described so far, the present invention is not limited thereto. The technical spirit of the present invention is defined by the invention described in the claims below, and should be understood to include the equivalents thereof. In addition, although various modifications within the technical idea of the present invention are possible, those skilled in the art will readily understand that it belongs to the scope of the present invention.

As described above, according to the present invention, in performing the orbit function, all images can be displayed without distortion in the display area, thereby enabling stable display without losing information even when important information is displayed on the edge such as text broadcasting. .

Claims (5)

In the image processing apparatus, A display unit having a display area for displaying an image; A storage unit which stores a movement amount and a movement period in a predetermined movement direction in which the display image is to be moved in the display area; A scale unit generating the display image so that the entire display image is displayed within the display area even if the display image is moved in the movement direction by the movement amount; And And a controller configured to read the movement amount and the movement period corresponding to the movement direction from the storage unit and to control the scale unit to move the display image in the display area based on the movement period and the movement amount. Image processing apparatus. The method of claim 1, And the control unit controls the scale unit to adjust the size of the display image according to the movement amount. The method of claim 1, Further comprising a setting unit for receiving the movement amount corresponding to the movement direction, And the control unit controls the scale unit to dynamically adjust the size of the display image according to the movement amount input through the setting unit. The method according to any one of claims 1 to 3, And the scale unit generates the display image such that the size of the display image in the movement direction is smaller by at least the amount of movement than the display area. The method according to any one of claims 1 to 3, The apparatus further includes a user input unit configured to receive whether to select a predetermined afterimage prevention mode. The control unit causes the scale unit to generate the display image having the same size as the display area when the afterimage prevention mode is not selected, and when the afterimage prevention mode is selected, the display image is moved in the moving direction by the amount of movement. And the scale unit controls the scale unit to generate the display image so that the entire display image is displayed within the display area even when moved.

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