KR20030097124A - Display apparatus and method - Google Patents

Abstract

PURPOSE: A display apparatus and a method therefor are provided to display image data more similar to an actual object by displaying a multiscreen in a format similar to a whole screen. CONSTITUTION: A signal processor(304) operates video signals stored to correspond to picture ratio of a plurality of pictures, so that signal processor outputs the video signals as displayable signals. A memory(300) stores the video signals processible by the signal processor and stores the processed video signal to be displayed on the plurality of pictures. A control unit(302) controls to read the stored video signals and display the read video signals, and changes a display order of the read video signals to be corresponded to the picture ratio of the plurality of pictures.

Description

Display apparatus and method

The present invention relates to a display apparatus and a method, and more particularly, to a display apparatus and method for providing a user with a screen similar to the real by changing the display order of the image data when the multi-screen screen display.

Currently, the multi-screen provided by the TV displays the screen divided into left and right. When the aspect ratio is 4: 3, 16: 9, the aspect ratio of the multi screen is 2: 3. It is seen in the form of 8: 9.

FIG. 1 is a block diagram showing a configuration of a conventional display device, and FIG. 2 is a diagram illustrating a screen arrangement procedure for explaining FIG. 1. The memory 100 stores image data, and the scaler 101 reads the image data from the memory 100 and calculates the image data in accordance with the aspect ratio. The signal processor 102 performs signal processing for displaying image data output from the scaler 101 and outputs the signal to the display unit 104. The control unit 103 controls the entire system.

If the output of a normal digital TV is 1024 × 68 (4: 3) or 1366 × 68 (16: 9), the horizontal pixel count is scaled by 1/2 scaling the horizontal pixel count (1024 or 1366) in multi-screen. Should be displayed as 512 or 683. For example, assume that there is a TV of 16 pixels wide by 12 pixels high as in FIG. 2A. The data coming into the TV are arranged in order from 1 as shown in the figure, and are stored in the memory 100. When the control unit 103 reads them in order and transmits them to the scaler 101, they are sequentially displayed from 1 again. However, when entering the multi-screen mode, the scaler 101 deletes the intermediate intermediate data so that 1, 3, 5, 7,... And 1 ', 3', 5 ', 7',... It reads out from the memory 100 in order and produces a format of 8:12. The problem of providing a strange TV screen to the viewer by creating two strangely shaped screens that are narrow and vertically long.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a display device that displays a screen format similar to that when viewing a full screen by changing the display order of image data in response to a screen ratio when displaying a multi-screen screen.

Another technical problem to be achieved by the present invention is to provide a display method in which the display order of image data is changed and output in response to the aspect ratio when displaying a multi-screen screen and displayed in a screen format similar to that when viewed in full screen.

1 is a block diagram showing the configuration of a conventional display device.

FIG. 2 is a diagram illustrating a screen arrangement procedure for explaining FIG. 1.

3 is a block diagram showing the configuration of a display device according to the present invention.

4 is a diagram illustrating a screen arrangement procedure for explaining FIG. 3.

5 is a flowchart showing the operation of the display method according to the present invention.

FIG. 6 is a diagram for explaining FIG. 5.

According to an aspect of the present invention, there is provided a display apparatus comprising: a signal processor configured to output a displayable signal by calculating image signals stored to correspond to the plurality of screen ratios; A storage unit for storing image signals that the signal processor can process and storing the image signals processed for display on the plurality of screens; And a controller configured to read the image signals stored in the storage unit and to display the image signals on the plurality of screens, and to change the display order of the image signals read from the storage unit so as to correspond to the plurality of screen ratios during display. It is desirable to.

In the present invention, the display device is rotated 90 degrees to view the plurality of screens in a normal direction.

In the present invention, the control unit controls a predetermined portion of the screen on which the image signal is displayed in order to follow the correct aspect ratio.

According to another aspect of the present invention, there is provided a display method for displaying a plurality of screens, the method comprising: (a) reading a video signal from a memory in which a video signal to be displayed is stored and corresponding to the plurality of screen ratios; Converting the signal into a displayable signal and storing it in the memory; And (b) changing the display order of the image signals read out from the memory so as to correspond to the plurality of aspect ratios.

In the present invention, (c) further comprises the step of rotating the display screen 90 degrees to view the plurality of screens in the normal direction.

In the present invention, after the step (b), in order to follow the correct aspect ratio, a predetermined portion of the screen on which the image signal is displayed is blanked.

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

3 is a block diagram showing a configuration of a display apparatus according to the present invention, which includes a memory 300, a memory controller 301, a controller 302, a scaler 303, a signal processor 304, and a display 305. It is composed.

4 is a diagram illustrating a screen arrangement procedure for explaining FIG. 3.

5 is a flowchart illustrating an operation of the display method according to the present invention, in which the image data reading step 500 stored in the memory is performed. The display order of the read image data is changed (step 502), the margin processing (503) corresponding to the multi-screen screen mode, and the step of rotating the multi-screen 90 degrees (504).

FIG. 6 is a diagram for explaining FIG. 5.

Next, the present invention will be described in detail with reference to FIGS. 3 to 6.

The memory 300 stores image data input from the outside, and stores an image signal processed by the scaler 303 for display on a multi screen.

The memory controller 301 controls the input / output data of the memory 300 under the control of the controller 302.

The controller 302 controls the entire system, controls image data stored in the memory 300 to be displayed on the multi screen, and displays the image data read from the memory 300 so as to correspond to the aspect ratio of the multi screen during display. Reorder the display order.

The scaler 303 reads image data from the memory 100 and calculates the image data in accordance with the aspect ratio. When the aspect ratio is reduced, the scaler 303 deletes the intermediate intermediate pixel data and stores the pixel data in the memory 300. When the aspect ratio is enlarged, the scaler 303 calculates the correlation with the front, rear, left, and right pixel data, and then stores the memory. Save to 300.

The signal processor 304 performs signal processing for displaying image data output from the scaler 303 and outputs the signal to the display unit 305.

If the output of a normal digital TV is 1024 × 68 (4: 3) or 1366 × 68 (16: 9), the horizontal pixel count is scaled by 1/2 scaling the horizontal pixel count (1024 or 1366) in multi-screen. Should be displayed as 512 or 683. For example, assume that there is a TV of 16 pixels wide by 12 pixels high as in FIG. 3A. The data coming into the TV are stored in the memory 300 in order from 1 as shown in the figure, and when the controller 302 reads them out in order and transmits them to the scaler 303, they are sequentially displayed from 1 again.

However, when entering the multi-screen mode, the scaler 303 deletes the intermediate intermediate data so that 1, 3, 5, 7,... And 1 ', 3', 5 ', 7',... The data is read out from the memory 300 in the order of 8:12. The problem of providing a strange TV screen to the viewer by creating two strangely shaped screens that are narrow and vertically long.

3C illustrates a screen output from the memory 300 in which the image data of FIG. 3B is stored to the display unit 305 by changing the display order. 3C, A, B, C... The data denoted by denotes data calculated by the scaler 303 and stored in the memory 300.

3D is a screen in which the screen in which the display order is changed is rotated 90 degrees. In FIG. 3D, a multi-screen screen that is almost similar to 4: 3 or 16: 9 can be seen as two upper and lower screens. In this case, when the aspect ratio is 4: 3, the 768x12 screen form is output, and when the aspect ratio is 16: 9, the 768x83 screen form is output.

3E is a view in which the screen of FIG. 3D is blanked because it can be displayed in a screen format similar to that when viewed in full screen. Margins above and below the multiscreen to provide accurate 4: 3 or 16: 9 picture. In FIG. 3E, AS, BS, CS... The data is a value scaled from 1 to 16 in accordance with the vertical format. In an example 16:12 screen, values from 1 to 16 are scaled to 6 pixels. On a real screen, 1024 (4: 3), 1366 (16: 9) pixels will be 576 (4: 3 screen vertical pixels on vertical multiscreen), and 432 (16: 9 screen vertical pixels on vertical multiscreen) The scaled value.

5 and 6, the control unit 302 reads out image data stored in the memory 300 (operation 500). The memory controller 301 controls data input / output to the memory 300 under the control of the controller 302. As shown in FIG. 6A, the memory 300 stores image data of CH3 and CH4, respectively.

When the multi-screen mode is selected, the scaler 303 converts the read image data into a memory so as to correspond to the multi screen aspect ratio (step 501). The scaler 303 reads image data from the memory 100 and calculates the image data in accordance with the aspect ratio. When the aspect ratio is reduced, the scaler 303 deletes the intermediate intermediate pixel data and stores the pixel data in the memory 300. When the aspect ratio is enlarged, the scaler 303 calculates the correlation with the front, rear, left, and right pixel data, and then stores the memory. Save to 300. FIG. 6B is a diagram in which the screen ratio is reduced and data of an intermediate middle pixel is deleted, stored in the memory 300, and displayed on a multi-screen under the control of the controller 302. The problem of providing a strange TV screen to the viewer by creating two strangely shaped screens that are narrow and vertically long.

The controller 302 reverses the display order and outputs the image data of the abnormally narrow and vertically elongated format stored in the memory 300 (step 502). The image data is read from the memory 300 in which the image data as shown in FIG. 6B is stored, and the display order is output in a form as shown in FIG. 6C. FIG. 6C, which is a screen in which the display order is changed, is similar to that of a full screen compared to FIG. 6B.

In order to track the correct aspect ratio, the controller 302 blanks a predetermined portion of the screen on which image data is displayed (step 503). As shown in FIG. 6C, the upper and lower portions of the screen may be blanked to provide an accurate 4: 3 or 16: 9 screen.

In order to view the multi-screen in the normal direction, the multi-screen is rotated 90 degrees after the margin processing (step 504).

The present invention is not limited to the above-described embodiments and can be modified by those skilled in the art within the spirit of the invention.

As described above, according to the present invention, it is possible to display to the viewers watching the multi-screen in the vertically elongated screen in a screen format similar to that when viewed in full screen to provide a closer look to the real, so that the viewer can comfortably watch TV. You can watch more effectively by using the wider display range of the larger display devices.

Claims (6)

In the apparatus for displaying a plurality of screens, A signal processor configured to calculate and output image signals stored to correspond to the plurality of aspect ratios as a displayable signal; A storage unit for storing image signals that the signal processor can process and storing the image signals processed for display on the plurality of screens; And And a controller configured to read the image signals stored in the storage unit and to display the image signals on the plurality of screens, and to change the display order of the image signals read out from the storage unit so as to correspond to the plurality of screen ratios during display. Display device. The display apparatus of claim 1, wherein the display apparatus is rotated 90 degrees to view the plurality of screens in a normal direction. The method of claim 1, wherein the control unit And controlling a predetermined portion of the screen on which the image signal is displayed to follow the correct aspect ratio. In the method for displaying a plurality of screens, (a) reading an image signal from a memory in which the image signal to be displayed is stored, calculating a signal corresponding to the plurality of aspect ratios, converting the image signal into a displayable signal, and storing the image signal in the memory; And and (b) reversing and displaying the display order of the image signals read out from the memory so as to correspond to the plurality of aspect ratios. The method of claim 4, wherein (c) rotating the display screen 90 degrees to view the plurality of screens in a normal direction. The method of claim 4, wherein after step (b) And a predetermined portion of the screen on which the image signal is displayed in order to track the correct aspect ratio.