KR100623036B1 - Electric signboard system improved resolution with dynamic interpolation scanning - Google Patents

Abstract

The present invention relates to an electronic signboard system for improving the resolution by dynamic interpolation scanning without increasing the pixels for displaying an image in the electronic signboard. The present invention arranges the fixed pixels having red (R), green (G), and blue (B) as light emitting sources in the shape of a checkerboard, and red, green, and blue from adjacent fixed pixels between up, down, left, and right of the fixed pixels. By obtaining the light emitting source of the interpolated new pixels having the same shape as the fixed pixels to express the image. As a result, the resolution has been improved without increasing the number of fixed pixels, which makes it possible to display a high resolution progressive scan screen at a low price.

Display board, Pixel (LED), Interpolation, Sequential Scan

Description

Electric signboard system improved resolution with dynamic interpolation scanning

1 is an exemplary view of a conventional LED panel module,

2 is a view schematically showing a dynamic interpolation scanning method in an electronic display system according to the present invention;

3A is a view showing an arrangement of display frame image data of 4 times the resolution in the electronic display system according to the present invention;

Figure 3b is a view showing the pixel arrangement state of the actual sign board in the sign board system according to the present invention,

4A and 4B schematically show a dynamic interpolation scanning method in an electronic signboard system according to the present invention;

5 is a view showing a correspondence state between image data and a sign board pixel in the sign board system according to the present invention;

6 is a view showing a full frame memory data layout (LAY OUT) for interpolation and scanning of an electronic sign in the electronic sign system according to the present invention;

FIG. 7 is a view showing a 4-block field memory data layout reconfigured for implementing dynamic interpolation scanning in an electronic signboard system according to the present invention; FIG.

8 is a logic block diagram for each function in the electronic display system according to the present invention;

9 is a dynamic interpolation scanning timing chart in an electronic signboard system according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: fixed pixel 2,3,4 interpolation pixel

10 to 40: field memory 60: main controller

70: data counter address 80: address switcher

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic signboard system used to display an image to the outside, and more particularly, to an electronic signboard system having improved resolution by dynamic interpolation scanning without increasing pixels for displaying an image.

In general, as an image display method in an electronic signboard, only one field of interlaced scan NTSC method is displayed at first, thereby displaying a rough screen in which the scan line is reduced to 1/2. For the purpose of improving this, the applicant of the present application has disclosed a sequential scanning type electronic display plate having a high resolution by Y / C interpolation using a double speed converter as Patent No. 252619.

In addition, due to the development of image technology, digital broadcasting is becoming more practical and high definition HDTV broadcasting is being used in recent years. For this reason, the applicant of the present application has been disclosed in Japanese Patent No. 468209 in order to accommodate all of these various image sources and display them on the electronic display.

However, such a technique is related to image signal processing, and in order to display a high-quality and high-resolution image, there is a problem in that the display element pixels on which an entity is displayed must be increased accordingly.

Accordingly, an object of the present invention relates to an electronic sign board system having improved resolution by dynamic interpolation scanning without increasing pixels for displaying an image.

In order to achieve the above object, the present invention provides an image display system, in which red (R), green (G), and blue (B) light emitting sources are arranged in a checkered pattern, but the fixed pixels are arranged. A high-resolution image is obtained from the interpolation pixels and the fixed pixels in a state in which red, green, and blue light emitting sources are obtained from the fixed pixels adjacent to each other, and interpolated new pixels having the same shape as the fixed pixels. Display board to express the; And a pixel interpolation unit configured to store the interpolated pixels and the fixed pixels, and to store the interpolated pixels and the fixed pixels, respectively, and to store the interpolated pixels and the fixed pixels, and to sequentially scan each field memory so that an image input from the outside is displayed on the electronic display board. It is characterized by doing.

The pixel interpolator divides all pixels in a form of three interpolation pixels in a checkerboard shape around one fixed pixel and alternately designates the horizontal lines of the pixels as even / odd lines, and also the vertical lines as even / In a state in which alternating odd-numbered pixels are specified, the field memory is a first field memory consisting of pixels positioned on even lines and even pixels, a second field memory consisting of pixels located on even lines and odd pixels, odd lines and even pixels It is preferable to divide into a third field memory composed of pixels located at and a fourth field memory composed of odd lines and pixels positioned at odd pixels, and sequentially scan each field memory according to the vertical synchronization signal.

The pixel interpolator may include a data counter address for generating the position addresses of the pixels and an address switcher for distributing the image for each field memory according to the position address input from the data counter address.

The above objects, advantages and other features will become apparent from the following description with reference to the accompanying drawings.

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

Figure 1 is an exemplary diagram of a conventional LED panel module, Figure 2 is a schematic view showing a dynamic interpolation scanning method in the LED system according to the present invention, Figure 3A is a display frame image data of 4 times the resolution in the LED system according to the present invention Figure 3b is a diagram showing the arrangement of the actual display board pixel arrangement state in the signboard system according to the present invention, Figures 4a and 4b is a schematic diagram showing a dynamic interpolation scanning method in the signboard system according to the present invention, 5 is a view showing a correspondence state between image data and a sign board pixel in the sign board system according to the present invention, and FIG. 6 is a full frame memory data layout for displaying and interpolating and scanning the sign board in the sign board system according to the present invention. FIG. 7 is a view illustrating a dynamic interpolation scan in an electronic display system according to the present invention. A diagram showing a data layout of a field memory configured block 4, Figure 8 is a logic function block diagram on the electronic board system according to the invention, Figure 9 is a dynamic interpolation scan timing chart in the electronic board system according to the present invention.

FIG. 1 is a view illustrating an existing LED board module, in which an LED board module based on 16 pixels wide by 16 pixels long is shown. In order to display a full color image, the red (R), green (G), and blue (B) light emitting sources are composed of 1 pixel (hereinafter referred to as "fixed pixel"). ) Becomes a light emitting diode (LED). Since the conventional electronic display board displays the image by fixing the fixed pixels 1 in a state in which the fixed pixels 1 are bundled into four blocks, in the case of the module 1 shown in FIG. 1, the horizontal resolution is fixed to 16 lines.

The present invention has improved the resolution by expressing an image by interpolating and reconstructing red, green, and blue pixels from the fixed pixel 1 without increasing the fixed pixel 1 in the conventional electronic display board. As shown in Fig. 1, the thick circles represent fixed pixels 1 composed of red, green, and blue light emitting sources. Here, one red, green, and blue light emitting source is viewed as one pixel. The left and right additional pixels 2, 3, and 4 can be configured in the same form as the fixed pixel 1. These additional pixels 2, 3 and 4 are circles of thin lines, hereinafter referred to as " interpolated pixels ", thereby improving the resolution four times.

The conversion of the sequential scanning method to high resolution was implemented in a double memory method using a double speed converter according to the patent application No. 252619, which was previously registered by the applicant of the present application. Therefore, the frame image data of the 4x resolution image display of FIG. As implemented by No. 252619, expressing such frame image data as shown in the actual display pixel arrangement of FIG. 3B enables 4 times improved image display.

FIG. 6 shows a full frame memory data layout (LAY OUT) for interpolation and scanning, which is converted to a high-definition sequential scanning method by a double speed converter as described above. As shown in FIG. The interpolation pixels 1, 2, and 4 are partitioned in the form of three interpolation pixels 2, 3, and 4 in a checkerboard shape, and the fixed pixel 1 located at the upper left of When the address is referred to as "OO", the horizontal lines are alternately designated as even / odd lines, and the vertical lines are also designated as even / odd pixels, and interpolation of adjacent fixed pixels 1 causes additional pixels (2,3,4). Since the image must be operated as if the full screen frame data is sequentially scanned as in the conventional scanning method, as shown in FIG. 6, the image is not duplicated with the left and right adjacent pixels. When scanning in the order of "OO", "O1", "10", and "11", multi-scanning is possible without overlapping with adjacent pixels. For the purpose of realizing this, as shown in FIG. 4) is reconfigured into four blocks of field memories 10 to 40, and the data is stored and scanned.

The field memories 10 to 40 include a first field memory 10 having even lines and even pixels, a second field memory 20 having even lines and odd pixels, and a third field memory having odd lines and even pixels. 30 and a fourth field memory 40 composed of odd lines and odd pixels. Such field memories 10 to 40 are well shown in Fig. 8, and the scanning method is scanned in the order of 1,2,3,4 as shown in Fig. 4B.

FIG. 8 shows a functional block diagram of a function designed to enable dynamic interpolation scanning of the present invention. The main controller 60 has the same configuration as that disclosed in Patent Nos. 468209 and 252619, which have been previously acquired by the present application. And distributes the image to the field memories 10 to 40 according to a data counter address 70 for generating a position address of the pixels 1 to 4 and a position address input from the data counter address 70. An address switcher 80, and a pixel interpolation section composed of the field memories 10-40.

FIG. 5 is a conceptual diagram of correspondence between the image data implemented in the main controller 60 and the pixels 1 to 4 of the interpolated display board. The coordinates of the image data are assumed to be xm and ym, and the interpolated display boards are pixels. If the coordinates of (1 to 4) are assumed to be xp and yp, (1) the image data (xm, ym) corresponds to the interpolated scoreboard pixels (xp, yp), and (2) the image data (xm + 1.ym) is interpolated. Corresponds to the signboard pixels xp + 1 and yp, and 3) image data xm + 1 and ym + 1 correspond to interpolated signboard pixels xp + 1 and yp + 1, and ④ image data xm and ym. +1) corresponds to the interpolated scoreboard pixels xp and yp + 1.

Therefore, in the case of ①, the red, green, and blue data transmitted from the full frame memory of the main controller 60 are horizontal / vertical (xp = xm / 2, yp = ym / 2). The red and blue data are stored as (xp = xm / 2, yp = ym / 2) and the green data is (xp = (xm / 2) +1. , yp = ym / 2) and stored as an address in the field memory 20, and in case of ③, the red data is (xp = xm / 2, yp = ym / 2) and the green data is (xp = (xm / 2). ), Blue data is stored as an address in the field memory 30 as (xp = xm / 2, yp = (ym / 2) +1), and In the case of red data as (xp = xm / 2, yp = ym / 2), and green and blue data as (xp = xm / 2, yp = (ym / 2) +1). ) As an address.

As described above, when the full screen image image from the main controller 60 is stored in the field memories 10 to 40, and the data is scanned into the pixels 1 to 4 of the electronic display board, the fixed pixel 1 is stored as described above. 4 times higher resolution image display is possible without increasing.

Fig. 9 shows a dynamic interpolation scanning timing chart for realizing the present invention, showing a state of sequentially scanning data of four blocks of field memories 10 to 40 in accordance with the vertical synchronization signal.

When scanning 1 frame, 1-4 filter scanning is performed. When the vertical synchronization signal is set to 60 Hz, four field data are scanned, so the frame frequency is 240 Hz.

As described above, according to the present invention, by re-editing the LED dot of the adjacent fixed pixel to configure the interpolation pixel, the resolution is increased 4 times without increasing the fixed pixel to display the screen of the high resolution sequential scanning method at a low price. It works.

Claims (3)

In the electric signboard system for displaying an image, Arrange the fixed pixels of red (R), green (G), and blue (B) in the shape of a tile, and emit red, green, and blue light sources from the adjacent fixed pixels between the top, bottom, left, and right sides of the fixed pixels. An electronic display panel that obtains and displays a high resolution image from the interpolation pixels and the fixed pixels while interpolating new pixels having the same shape as the fixed pixels; And A pixel interpolation unit configured to store the interpolated pixels and the fixed pixels, storing the interpolated pixels and fixed pixels, and storing the interpolated pixels and the fixed pixels in the field memory block-blocked by the positions, and sequentially scanning each field memory so that an image input from the outside is displayed on the electronic display board; The electronic sign board system which the resolution was improved by the dynamic interpolation scan characterized in that there exists. 2. The pixel interpolator of claim 1, wherein the pixel interpolator divides all pixels in a form of three interpolation pixels in a checkerboard shape around one fixed pixel and alternately designates horizontal lines of the pixels as even / odd lines. In addition, in the state where vertical lines are also alternately designated as even / odd pixels, the first field memory includes pixels positioned in even lines and even pixels, and the second field memory includes pixels located in even lines and odd pixels. And dividing into a third field memory consisting of pixels positioned in odd lines and even pixels, and a fourth field memory consisting of pixels located in odd lines and odd pixels, and sequentially scanning each field memory according to a vertical synchronization signal. Display board system which improved resolution by dynamic interpolation scanning. The pixel interpolator of claim 1, wherein the pixel interpolator is an address switcher for distributing an image for each field memory according to a data counter address for generating a position address of the pixels and a position address input from the data counter address. An electronic signage system with improved resolution by dynamic interpolation scanning.

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