KR101839116B1 - System and Method for providing circle image processing - Google Patents

Abstract

The present invention relates to an apparatus and a method for processing an image of a circular video, and more particularly, to an apparatus and a method for processing an image of a video to display a specific region of a general video as a circular video. According to an embodiment of the present invention, the apparatus for processing an image of the circular video comprises: a video processing unit for selecting a display part from an original video, and creating a rectangular video (r x N screen); a video playing apparatus for playing the r x N screen; an LED driving apparatus for receiving the r x N screen played by the video playing apparatus, and transmitting a control signal for driving an LED array module to display an image in the LED array module; and the LED array module for displaying a circular image while rotating by the control signal of the LED driving apparatus.

Description

Technical Field [0001] The present invention relates to a video image processing apparatus,

The present invention relates to a circular moving image processing apparatus and method, and more particularly, to a moving image processing apparatus and method for displaying a specific portion of a general moving image as a circular moving image.

Generally, when an LED module in which a plurality of LED elements (light emitting elements) are arranged one-dimensionally is rotated and blinks at a high speed according to an angle, various characters and graphics as well as moving images can be reproduced by the afterimage effect of a human. The afterimage effect is an illusion of the eye, which is regarded as one moving image when a series of still images are moved at high speed. This is because the overlapping of the images occurs because each mark remains on the retina until another image is displayed, and it is possible to view each image split by the afterimage effect as a vividly continuous movie.

A display device using such a residual image effect has been developed and applied to an electric signboard or a signboard. Such a display device can display a wide area with a small number of pixels, thereby leading to cost reduction.

This conventional rotary display device is a technique for representing an image with N + 1 dimensions using an N-dimensional display device, which is composed of an LED module comprising a plurality of LED elements, a rotating body for supporting the LED module, A body for supporting the rotating body so that the rotating body is rotatable; a motor provided on the body for rotating the rotating body; and a controller for applying various characters, graphics, and moving image signals to the LED element according to the rotation angle of the LED module And a control unit for controlling the display unit.

One of the conventional rotatable display devices reduces or enlarges the format of a general moving image and displays it on a cylindrical rotating display device as it is. However, when the rotating body rotates around one axis like an electric fan, If you want to display it as a prototype video, you can not display the correct video by the existing method of video presentation.

Korean Patent Registration No. 10-0914758 entitled "Rotary Display Device and Its Moving Picture Playback Method" Korean Patent Laid-Open No. 10-2011-0108462 entitled "Circular rotation display device using afterimage effect"

SUMMARY OF THE INVENTION It is an object of the present invention to provide a moving image processing apparatus and method for displaying a specific portion of a general moving image as a moving image.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

The apparatus for processing a circular moving picture according to an embodiment of the present invention transmits the selection information of the original moving picture and the display part to the moving picture reproducing apparatus or the circular moving picture information on the basis of the original moving picture and the display part selection information, rx N screen) and transmits the converted video to the moving picture reproducing apparatus; The display control unit receives the selection of the display portion and the original moving picture from the original video and reproduces the rx N screen by changing the circular motion picture information to the rx N screen based on the original moving picture and the display portion selection information, N screen to reproduce the rx N screen, or receives the selection of the display part and the original moving picture from the original moving picture from the video processing part, and reproduces the rectangular picture including the circular moving picture based on the original moving picture and the display part selection information A moving picture reproducing apparatus; Receives a rx N picture reproduced by the moving picture reproducing apparatus and transmits a control signal for driving the LED array module to display an image on the LED array module or changes the reproduced square picture received from the moving picture reproducing device to rx N picture An LED driver for transmitting a control signal for driving the LED array module to display an image on the LED array module using the changed rx N screen; And an LED array module for displaying a circular image while rotating by a control signal of the LED driving device.

Preferably, the video processing unit, the moving picture reproducing apparatus, or the LED driving apparatus divides the screen of the moving picture of the circular shape into N lines by a line having a radius r, The process of reading information; And a process of making a r x N screen with each r line as a vertical line.

Preferably, the video processing unit, the moving picture reproducing apparatus, or the LED driving apparatus may further include a step of obtaining a rx N screen by applying the reading process and the creating process to all the frames of the moving picture in the circular form, .

Preferably, the step of reading the image information on each line includes: if a radius of the image information on the radial line is vertical or horizontal, a pixel value of a screen of the original moving image overlapping the pixel of the image information on the radial line The pixel information of the image information on the radial line is calculated based on the pixel information of surrounding pixels on the screen of the original moving picture which overlaps with the pixel information of the image information. .

Preferably, the pixel value calculation based on the pixel information of the neighboring pixels is performed by Equation (1).

Preferably, the video processing unit, the moving picture reproducing apparatus, or the LED driving apparatus divides the screen of the moving picture of the circular shape into N lines by a line having a radius of r to generate the rx N picture, The process of reading information; A process of creating a screen of r x N with each r line as a vertical line; And r x N are divided into left and right sides and arranged in a vertical direction.

Preferably, the LED driving device transmits a control signal for driving the LED array module to divide the r x N screen into L subframes and to display each subframe in each of the L LED array modules.

According to another aspect of the present invention, there is provided a circular motion image processing apparatus comprising: a video processing unit for generating a rectangular motion picture (rxN screen) by selecting a display portion from an original moving picture; A moving picture reproducing apparatus for reproducing the r x N picture; An LED driver for receiving a r x N screen reproduced by the moving picture reproducing apparatus and transmitting a control signal for driving the LED array module to display an image on the LED array module; And an LED array module for displaying a circular image while rotating by a control signal of the LED driving device.

Preferably, the video processing unit divides the screen of the moving picture of the circular shape into N lines by using a line having a radius r to read the image information on each line to generate the r x N screen. And a process of making a r x N screen with each r line as a vertical line.

Preferably, the video processing unit further includes a step of obtaining a rxN picture by applying the reading process and the making process to all the frames of the moving picture in the circular form, and thereby making a rectangular moving picture.

Preferably, the step of reading the image information on each line includes: if a radius of the image information on the radial line is vertical or horizontal, a pixel value of a screen of the original moving image overlapping the pixel of the image information on the radial line The pixel information of the image information on the radial line is calculated based on the pixel information of surrounding pixels on the screen of the original moving picture which overlaps with the pixel information of the image information. .

Preferably, the pixel value calculation based on the pixel information of the neighboring pixels is performed by Equation (1).

Preferably, the video processing unit divides the screen of the moving picture of the circular shape into N lines by using a line having a radius r to read the image information on each line to generate the r x N screen. A process of creating a screen of r x N with each r line as a vertical line; And r x N are divided into left and right sides and arranged in a vertical direction.

Preferably, the LED driving apparatus receives a rx N picture reproduced by the moving picture reproducing apparatus, divides the rx N picture into L subframes, and outputs a control signal for driving the LED array module to display each of the subframes in the L LED array modules .

The apparatus for processing a circular moving picture according to another embodiment of the present invention receives a selection of a display part and an original moving picture from an original moving picture and changes the circular moving picture information to an rx N screen based on the original moving picture and the display part selection information a moving picture reproducing apparatus for reproducing an rx N picture; An LED driver for receiving a r x N screen reproduced by the moving picture reproducing apparatus and transmitting a control signal for driving the LED array module to display an image on the LED array module; And an LED array module for displaying a circular image while rotating by a control signal of the LED driving device.

Preferably, the moving picture reproducing apparatus divides the screen of the moving picture of the circular shape into N lines by a line having a radius r to read the image information on each line to generate the r x N screen. And a process of making a r x N screen with each r line as a vertical line.

Preferably, the moving picture reproducing apparatus further includes a step of obtaining a rxN picture by applying the reading process and the making process to all the frames of the moving picture in the circular form, and making a rectangular moving picture.

Preferably, the step of reading the image information on each line includes: if a radius of the image information on the radial line is vertical or horizontal, a pixel value of a screen of the original moving image overlapping the pixel of the image information on the radial line The pixel information of the image information on the radial line is calculated based on the pixel information of surrounding pixels on the screen of the original moving picture which overlaps with the pixel information of the image information. .

Preferably, the pixel value calculation based on the pixel information of the neighboring pixels is performed by Equation (1).

Preferably, the moving picture reproducing apparatus divides the screen of the moving picture of the circular shape into N lines by a line having a radius r to read the image information on each line to generate the r x N screen. A process of creating a screen of r x N with each r line as a vertical line; And r x N are divided into left and right sides and arranged in a vertical direction.

Preferably, the LED driving apparatus receives a rx N picture reproduced by the moving picture reproducing apparatus, divides the rx N picture into L subframes, and outputs a control signal for driving the LED array module to display each of the subframes in the L LED array modules .

The apparatus for processing a circular moving picture according to another embodiment of the present invention receives a selection of a display part and an original moving picture from an original moving picture and reproduces a rectangular picture including a circular moving picture based on the original moving picture and the display part selection information A moving picture reproducing apparatus; An LED for transmitting the control signal for driving the LED array module to rearrange the reproduced square image information received from the moving picture reproducing apparatus into the rx N screen and display the image on the LED array module using the rearranged rx N screen A driving device; And an LED array module for displaying a circular image while rotating by a control signal of the LED driving device.

Preferably, the LED driving apparatus further comprises:

A process of reading image information on each line by dividing a screen of a rectangular image into N by 360 degrees with a line having a radius r; And a process of making a r x N screen with each r line as a vertical line.

Preferably, the LED driving apparatus further includes a step of applying a reading process and a preparing process to all the frames of the rectangular image to obtain an r x N screen, and thereby making a rectangular moving picture.

Preferably, the step of reading the image information on each line includes: if a radius of the image information on the radial line is vertical or horizontal, a pixel value of a screen of the original moving image overlapping the pixel of the image information on the radial line The pixel information of the image information on the radial line is calculated based on the pixel information of surrounding pixels on the screen of the original moving picture which overlaps with the pixel information of the image information. .

Preferably, the pixel value calculation based on the pixel information of the neighboring pixels is performed by Equation (1).

Preferably, the LED driving apparatus further comprises:

A process of reading image information on each line by dividing a screen of a rectangular image into N by 360 degrees with a line having a radius r; A process of creating a screen of r x N with each r line as a vertical line; And r x N are divided into left and right sides and arranged in a vertical direction.

Preferably, the LED driving device transmits a control signal for driving the LED array module to divide the rearranged rxN picture into L subframes and display each subframe on the L LED array modules, respectively .

According to another aspect of the present invention, there is provided a method of processing an image of a circular moving picture image processing apparatus, comprising: inputting an original moving picture; A changing step of changing the original moving picture information to the r x N picture based on the original moving picture and the display part selection information; r x N a playback step of playing back a screen; A control step of receiving a reproduced r x N screen and transmitting a control signal for driving the LED array module to display an image on the LED array module; And a display step of displaying the circular image while rotating by the control signal.

Preferably, the reproducing step comprises the steps of: dividing the screen of the moving picture of the circular form into a line having a radius of r by 360, to generate the r x N picture, and reading the picture information on each line; And a step of making a r x N screen with each r line as a vertical line.

Preferably, the reproducing step further comprises the step of applying the reading process and the creating process to all the frames of the moving image of the circular shape to obtain the r x N screen, and thereby making the rectangular moving picture.

Preferably, the step of reading the image information on each line includes: if a radius of the image information on the radial line is vertical or horizontal, a pixel value of a screen of the original moving image overlapping the pixel of the image information on the radial line The pixel information of the image information on the radial line is calculated based on the pixel information of surrounding pixels on the screen of the original moving picture which overlaps with the pixel information of the image information. .

Preferably, the pixel value calculation based on the pixel information of the neighboring pixels is performed by Equation (1).

Preferably, the reproducing step comprises the steps of: dividing the screen of the moving picture of the circular form into a line having a radius of r by 360, to generate the r x N picture, and reading the picture information on each line; A process of creating a screen of r x N with each r line as a vertical line; And r x N are divided into left and right sides and arranged in a vertical direction.

Preferably, the control step comprises receiving the reproduced rx N picture and dividing the reproduced rx N picture into L subframes, and transmitting a control signal for driving the LED array module to display each of the subframes in the L LED array modules .

According to another aspect of the present invention, there is provided a method of processing an image of a circular moving picture image processing apparatus, comprising: inputting an original moving picture; A reproduction step of reproducing a rectangular image including a circular motion picture based on the original moving picture and the presentation part selection information based on the original moving picture and the presentation part selection information; A rearranging step of rearranging the reproduced square image information into an r x N screen; A control step of transmitting a control signal for driving the LED array module to display an image on the LED array module using the rearranged r x N screen; And a display step of displaying the circular image while rotating by the control signal.

Preferably, in the rearranging step, the image information on each line is read by dividing the screen of the rectangular image into N lines by 360 ° with a line having a radius r, in order to rearrange the screen into r x N screens. And a process of making a r x N screen with each r line as a vertical line.

Preferably, the rearranging step further comprises the step of applying the reading process and the creating process to all the frames of the rectangular image to obtain a rxN screen, and thereby making a rectangular moving picture.

A computer-readable recording medium according to another embodiment of the present invention is characterized by recording a program for executing an image processing method.

INDUSTRIAL APPLICABILITY As described above, the image processing apparatus of the present invention is advantageous in that a specific portion of a general moving image can be displayed as a circular moving image.

FIG. 1 illustrates an image display range according to an embodiment of the present invention.
2 illustrates an example of a display device of an image processing apparatus according to an embodiment of the present invention.
FIG. 3 shows an example of a circular moving picture to be displayed on a display device according to an embodiment of the present invention.
4 is a block diagram of an image processing apparatus according to an embodiment of the present invention.
FIG. 5 illustrates image processing functions of the respective components in the image processing apparatus of FIG. 4;
FIG. 6 shows another example of the image processing function of each component in the image processing apparatus of FIG.
FIG. 7 shows another example of the image processing function of each component in the image processing apparatus of FIG.
8 shows a resolution relationship between an image on the radial profile of the LED array module and one image frame of the original moving image.
FIG. 9 shows a pixel matching of the radius when the resolution of the original moving image coincides with the resolution of the image information on the radial line.
FIG. 10 shows a case in which pixel matching of the radius is not performed when the resolution of the original moving image coincides with the resolution of the image information on the radial line.
11 shows an example of a case where the resolution of the original moving image does not match the resolution of the image information on the radial line (when the original is high).
12 shows another example of the case where the resolution of the original moving image does not match the resolution of the image information on the radial line (when the original is high).
13 shows another example of the case where the resolution of the original moving image does not match the resolution of the image information on the radial line (when the original is high), together with the mathematical expression.
FIG. 14 shows an example of a method of arranging rx N images according to the present invention.
FIG. 15 shows another example of a method of arranging an rx N image according to the present invention in a display device.
FIG. 16 shows another example of a method of arranging rxN images according to the present invention.
FIG. 17 shows another example of a method of arranging an rx N image according to the present invention using an actual moving image.
18 illustrates an image processing method of a circular moving picture image processing apparatus according to another embodiment of the present invention.
19 illustrates an image processing method of a circular moving picture image processing apparatus according to another embodiment of the present invention.

The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated and described in the drawings. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the term "comprising" or "comprising" or the like is intended to specify the presence of stated features, integers, But do not preclude the presence or addition of features, numbers, steps, operations, components, parts, or combinations thereof.

The present invention relates to a moving image processing apparatus and method for displaying a specific portion of a general moving image as a moving image.

FIG. 1 illustrates an image display range according to an embodiment of the present invention. As shown in FIG. 1, the image processing apparatus of the present invention can display only a specific portion 20, for example, a circular portion 20 of a moving image 10 having a general ratio of a rectangular shape through a display device, Only a specific subject is displayed in a circular form through the display device.

2 illustrates an example of a display device of an image processing apparatus according to an embodiment of the present invention. As shown in FIG. 2, the display device 300 includes an LED module (LED BAR) including a plurality of LED elements, and a rotating body that supports the LED module. In this case, the LED module is composed of four LEDs, which are arranged in the order of four LEDs. The LED modules can be adjusted to L in accordance with the resolution, brightness, and the number of frames, and four LED modules are rotated left or right to display the circular video 20 do. The display device is a rotating type image display device using an LED BAR and rotates clockwise or counterclockwise to implement a residual image.

FIG. 3 shows an example of a circular moving picture to be displayed on a display device according to an embodiment of the present invention. 3 (a) is a view of sampling a video image of a circular motion picture in a direction from 0 to 360 degrees with respect to the center of a circle. As shown in FIG. 3 (a), the image of the circular image is divided by N by a line having a radius of r by a specific component of the image processing apparatus, and the image information on each line is sampled and read. Also, as shown in FIG. 3 (b), a screen of r x N is created with each r line as a vertical line. All the frames (screen) of a circular shape are obtained in the same way as the screen (that is, the screen of r x N), and a rectangle-shaped moving picture is formed.

Certain components may be a video processor, a video player, an LED driver, or the like. This will be described in detail below.

4 is a block diagram of an image processing apparatus according to an embodiment of the present invention. As shown in FIG. 4, the image processing apparatus 1000 of the present invention may include a moving picture reproducing apparatus 100, an LED driving apparatus 200, and an LED array module 300. The image processing apparatus 1000 may further include a video processing unit 400 for producing an r x N image as an original moving image.

The circular moving picture image processing apparatus 1000 according to an embodiment of the present invention may transmit the selection information of the original moving picture and the display part to the moving picture reproducing apparatus 100 or may display the circular moving picture information (Rx N screen) and transmits the same to the moving picture reproducing apparatus 100; The display control unit 400 receives the selection of the display portion and the original moving picture from the original video and reproduces the rx N screen by changing the circular motion picture information to the rx N screen based on the original moving picture and the display portion selection information, Receives the rx N screen from the processing unit 400 and reproduces the rx N screen, receives the selection of the display portion and the original moving image from the original moving image from the video processing unit 400, A moving picture reproducing apparatus (100) for reproducing a rectangular picture including a moving picture; A control signal for driving the LED array module 300 is transmitted to receive the rx N screen reproduced by the moving picture reproducing apparatus 100 and displayed on the LED array module 300, An LED driving device for changing a reproduced rectangular image to an rx N screen and transmitting a control signal for driving the LED array module 300 to display an image on the LED array module 300 using the changed rx N screen 200); And an LED array module (300) for displaying a circular image while being rotated by a control signal of the LED driving device (200).

The video processing unit 400, the moving picture reproducing apparatus 100, or the LED driving apparatus 200 divides the screen of the moving picture of the circular shape into N lines by a line of radius r, A step of reading image information on the line; And a process of making a screen of r x N with each r line as a vertical line. The imaginary video processing unit 400, the moving picture reproducing apparatus 100 or the LED driving apparatus 200 obtains the rx N picture by applying the reading process and the making process to all the frames of the moving picture in the circular form, . In the process of reading the image information on each line, if the radius of the image information on the radial line is vertical or horizontal, one pixel value of the screen of the original moving image overlapping the pixel of the image information on the radial line is read, When the radius of the image information on the radial line is a diagonal line, the pixel information of the image information on the radial line is determined by calculating the pixel value based on the pixel information of the surrounding pixels of the original moving image overlapping with the pixel information of the image information. In order to generate the rx N picture, the video processing unit 400, the moving picture reproducing apparatus 100, or the LED driving apparatus 200 divides the screen of the moving picture of the circular form into a line of radius r, A step of reading image information on the line; A process of creating a screen of r x N with each r line as a vertical line; And r x N are divided into two horizontally and vertically arranged screens. The LED driving apparatus 200 transmits a control signal for driving the LED array module 300 to divide the r x N screen into L subframes and display each subframe on each of the L LED array modules.

FIG. 5 illustrates image processing functions of the respective components in the image processing apparatus of FIG. 4; As shown in FIG. 5, the moving picture reproducing apparatus 100 plays only the r x N picture. Therefore, selection of the display part in the original moving picture and rx N image production are performed in advance by the separate video processing unit 400. When the manufactured rx N image is registered in the moving picture reproducing apparatus 100, the moving picture reproducing apparatus 100 rx N images, and transmits the reproduced moving images to the LED driving apparatus 200. [

The LED driving apparatus 200 receives the r x N image reproduced by the moving picture reproducing apparatus 100 and transmits a control signal for driving the LED array module 300 to display an image on the LED array module 300. The LED driving apparatus 200 receives the rx N screen reproduced by the moving picture reproducing apparatus 100 and divides the rx N screen into four subframes and displays the subframes in the four LED array modules 300, 300).

The LED array module 300 displays the circular image while being rotated by the control of the LED driving device.

The video processing unit 400 divides the screen of the moving picture of the circular shape into N lines by a line having a radius of r to generate the r x N screen, and reads image information on each line; And a process of making a screen of r x N with each r line as a vertical line. The video processing unit 400 further includes a step of obtaining a rxN picture by applying the reading process and the making process to all the frames of the moving picture in the circular form, thereby forming a rectangular picture. In the process of reading the image information on each line, if the radius of the image information on the radial line is vertical or horizontal, one pixel value of the screen of the original moving image overlapping the pixel of the image information on the radial line is read, When the radius of the image information on the radial line is a diagonal line, the pixel information of the image information on the radial line is determined by calculating the pixel value based on the pixel information of the surrounding pixels of the original moving image overlapping with the pixel information of the image information.

When making the r x N screen by dividing N from the original video, it is possible to obtain a high-resolution r x N screen by increasing N. However, N may not be reproduced beyond the resolution of the video playback apparatus 100 or the monitor. In order to solve this problem, it is possible to arrange the r x N screens in parallel so as not to exceed the moving picture reproducing apparatus or the monitor resolution. To this end, the video processing unit 400 divides the screen of the moving picture of the circular shape into a line of radius r by N to divide 360 degrees into image lines on each line to generate the r x N screen. A process of creating a screen of r x N with each r line as a vertical line; And r x N are divided into two horizontally and vertically arranged screens.

FIG. 6 shows another example of the image processing function of each component in the image processing apparatus of FIG. 6, when the displayed portion of the original movie is selected and input (registered) in the moving picture reproducing apparatus 100, the moving picture reproducing apparatus 100 displays the circular moving picture information on the basis of the original moving picture and the displayed portion selection information rx N screen, and transmits the reproduced moving picture to the LED driving apparatus 200. [0060]

The LED driving apparatus 200 receives the r x N image reproduced by the moving picture reproducing apparatus 100 and transmits a control signal for driving the LED array module 300 to display an image on the LED array module 300. The LED driving apparatus 200 receives the rx N picture reproduced by the moving picture reproducing apparatus 100 and divides the picture into L subframes and displays each subframe in the L LED array modules 300, 300) is transmitted.

The LED array module 300 displays the circular image while rotating by the control signal of the LED driving device 200.

The moving picture reproducing apparatus 100 divides the screen of the moving picture of the circular shape into N lines by a line having a radius of r to generate the r x N screen, and reading the image information on each line; And a process of making a screen of r x N with each r line as a vertical line. The moving picture reproducing apparatus further includes a step of obtaining an rxN picture by applying the reading process and the making process to all the frames of the moving picture in the circular form, and making a rectangular moving picture. In the process of reading the image information on each line, if the radius of the image information on the radial line is vertical or horizontal, one pixel value of the screen of the original moving image overlapping the pixel of the image information on the radial line is read, When the radius of the image information on the radial line is a diagonal line, the pixel information of the image information on the radial line is determined by calculating the pixel value based on the pixel information of the surrounding pixels of the original moving image overlapping with the pixel information of the image information.

When making the r x N screen by dividing N from the original video, it is possible to obtain a high-resolution r x N screen by increasing N. However, N may not be reproduced beyond the resolution of the video playback apparatus 100 or the monitor. In order to solve this problem, it is possible to dispose r x N screens in parallel so as not to exceed the moving picture reproducing apparatus 100 or the monitor resolution. To this end, the moving picture reproducing apparatus 100 divides the screen of a circular motion picture into N lines by a line having a radius r to read the image information on each line to generate the r x N picture. A process of creating a screen of r x N with each r line as a vertical line; And r x N are divided into two horizontally and vertically arranged screens.

FIG. 7 shows another example of the image processing function of each component in the image processing apparatus of FIG. 7, when the displayed portion of the original moving image is selected and registered in the moving image playback apparatus 100, the moving image playback apparatus 100 displays a rectangular image including a circular moving image based on the original moving image and the displayed portion selection information And transmits the reproduced video image to the LED driving apparatus 200. [0053]

The LED driving apparatus 200 performs calculation for rearranging the reproduced square image information received from the moving picture reproducing apparatus 100 into an rx N image, expresses an rx N image, and uses the expressed rx N image And the LED array module 300 is driven to display an image on the LED array module 300. The LED driving apparatus 200 divides the screen of the rectangular image into N lines by using a line having a radius r to read the image information on each line to rearrange the screen into r x N screens; And a process of making a screen of r x N with each r line as a vertical line. The LED driving apparatus 200 further includes a step of obtaining the r x N screen by applying the reading process and the creating process to all the frames of the rectangular image, thereby forming a rectangular moving picture. In the process of reading the image information on each line, if the radius of the image information on the radial line is vertical or horizontal, one pixel value of the screen of the original moving image overlapping the pixel of the image information on the radial line is read, When the radius of the image information on the radial line is a diagonal line, the pixel information of the image information on the radial line is determined by calculating the pixel value based on the pixel information of the surrounding pixels of the original moving image overlapping with the pixel information of the image information. When making the r x N screen by dividing the original video by N, it is possible to obtain a high resolution r x N screen by increasing N. However, N may not be reproduced beyond the resolution of the video reproducing apparatus 100 or the monitor. In order to solve this problem, the r x N screen may be arranged in parallel so as not to exceed the resolution of the moving picture reproducing apparatus 100, the monitor or the LED driving apparatus 200. To this end, the LED driving apparatus 200 divides the screen of the rectangular image into N lines by using a line having a radius r to read the image information on each line to rearrange the screen into the r x N screen. A process of creating a screen of r x N with each r line as a vertical line; And r x N are divided into two horizontally and vertically arranged screens.

The LED driving apparatus 200 transmits a control signal for driving the LED array module 300 to divide the rearranged rx N screen into L subframes and display each subframe on the L LED array modules 300 do.

The LED array module 300 displays the circular image while being rotated under the control of the LED driving device 200. The LED array module 300 is an image display device (image display medium).

Hereinafter, a moving image processing method of a circular display device using residual images will be described. As shown in FIG. 3 (a), one frame (frame) of a circular motion image is sampled from 0 to 360 degrees with respect to the center of the circle, And the image information on each line is sampled and read. In this case, when the image information having a square pixel structure is matched with the image information on the radial line according to the angle of reading the image information on each line, 1: 1 matching becomes impossible. In this case, it is necessary to define the value of a new pixel with surrounding pixel information. Interpolation may be used for this purpose.

8 shows a resolution relationship between an image on the radial profile of the LED array module and one image frame of the original moving image. As shown in FIG. 8, a case is shown in which image information on a radial line matching each pixel of a circular screen is allocated. Here, it is assumed that the number of pixels of the image information on the radial line is equal to the number of pixels of the LED array module 300. In this case, since the resolution of the radial straight line matches the resolution of the original, it is possible to perform 1: 1 matching between pixels on the circular screen and pixels on the radial line only when the radii are 0, 90, 180 and 270 degrees. 1: 1 does not match between the pixels on the screen and the pixels on the straight line.

FIG. 9 shows a pixel matching of the radius when the resolution of the original moving image coincides with the resolution of the image information on the radial line. 9, when the radius lines are 0, 90, 180, and 270 degrees, the pixels 310 of the image information on the radial profile are 1: 1 matched with the pixels of the screen of the original moving image.

FIG. 10 shows a case in which pixel matching of the radius is not performed when the resolution of the original moving image coincides with the resolution of the image information on the radial line. As shown in FIG. 10, when the radial straight line is not 0, 90, 180, or 270 degrees, pixel matching is not performed between the image of the original moving image and the image information on the radial straight line. As shown in FIG. 10, one pixel (RED BOX 310) of the image information on the radial line overlaps with four pixels (BLACK BOX 320) of the screen of the original moving picture, so that it is influenced by four pixels. As shown in FIG. 10, when the radius of the image information on the radial line is a diagonal line, the pixel is not matched with 1: 1. In this case, the pixel information of the image information on the radial line should be obtained as surrounding information. In FIG. 10, a method of obtaining the value of the pixel 310 of the LED array module 300 from the surrounding four pixel information is shown.

11 shows an example of a case where the resolution of the original moving image does not match the resolution of the image information on the radial line (when the original is high). As shown in FIG. 11, when the radius of the image information on the straight line of the radius is diagonal, the pixel is not matched with 1: 1. In this case, the pixel information of the radius should be obtained as surrounding information. As shown in FIG. 11, one pixel (RED BOX 310) of the image information on the radial line overlaps with six pixels (BLACK BOX 320) of the screen of the original moving picture, so that it is influenced by six pixels. Therefore, in FIG. 11, a method of obtaining the value of the RED BOX pixel from the surrounding six pieces of pixel information is shown.

12 shows another example of the case where the resolution of the original moving image does not match the resolution of the image information on the radial line (when the original is high). As shown in FIG. 12, when the radius of the image information on the straight line of the radius is diagonal, the pixel is not matched with 1: 1. In this case, the pixel information of the radius should be obtained as surrounding information. As shown in FIG. 12, one pixel (RED BOX 310) of the image information on the radial straight line overlaps with nine pixels (BLACK BOX 320) of the screen of the original moving picture, so that it is influenced by 98 pixels. Therefore, in FIG. 12, a method of obtaining the value of the RED BOX pixel from the surrounding nine pieces of pixel information is shown.

13 shows another example of the case where the resolution of the original moving image does not match the resolution of the image information on the radial line (when the original is high), together with the mathematical expression.

Hereinafter, a method of obtaining each pixel information of the image information on the radial line by using the interpolation method is described as surrounding information. As shown in the following Equation 1, the pixel information F (r, g, b) of the image information on the radial straight line is obtained by dividing the center position (coordinate) of the pixel 310 of the image on the radial straight line, (Coordinates) of the surrounding pixels 320 of one screen of the screen, and denominator is the pixel information of the surrounding pixels. Each pixel of the image information on the radial line includes three subpixels including red (R), green (G), and blue (B). Thus, the pixel information may include the color values of the R, G, and B subpixels.

The scaling factor is used to adjust the value of each pixel information F (r, g, b) . The surrounding pixels are pixels overlapping the pixels of the image information on the radial straight line.

Where S is the scaling factor,

d _k : distance between the center of the pixel of the image information on the radial line and the center of the k-th pixel of the surrounding pixels,

: 주변 픽셀 중 k번째 픽셀의 픽셀 정보,

: Pixel information of the kth pixel among the surrounding pixels,

n: Number of surrounding pixels.

Each pixel information of the image information on the radial line can be obtained in units of R, G, and B sub-pixels, not in units of pixels. Each pixel of the image line on the radial line is 1: 1 matched with the LED array module, and each pixel consists of subpixels supporting R, G, B colors. In this case, the positions of the respective subpixels are located at different positions, not at the center of the pixel. In this case, each pixel information F (r, g, b) can be obtained for each of the R, G, and B subpixels as shown in the following Equations 2, 3, The distance between the center position (coordinate) of the pixel of the straight line image and the center position (coordinate) of the surrounding pixels of one screen of the original moving picture is obtained for each subpixel, and each pixel information F (r, g, b ) Can be obtained.

In Equations (2) to (4), S denotes a scaling factor, and n denotes the number of surrounding pixels.

d _{k, r} : the distance between the center of the r sub-pixel of the pixel of image information on the radial line and the center of the r sub-pixel of the k-th pixel of the surrounding pixels,

: 주변 픽셀 중 k번째 픽셀의 r 서브 픽셀 정보.

: R sub-pixel information of the kth pixel among the surrounding pixels.

d _{k, g} : distance between the center of the g sub-pixel of the pixel of image information on the radial line and the center of the g-th pixel of the k-th pixel of the surrounding pixels,

: 주변 픽셀 중 k번째 픽셀의 g 서브 픽셀 정보.

: G sub-pixel information of the kth pixel among the surrounding pixels.

d _{k, b} : distance between the center of the b sub-pixel of the pixel of the image information on the radial line and the center of the b sub-pixel of the k-th pixel of the surrounding pixels,

: 주변 픽셀 중 k번째 픽셀의 b 서브 픽셀 정보.

: B sub-pixel information of the kth pixel among the surrounding pixels.

FIG. 14 shows an example of a method of arranging r x N images according to the present invention. 14 shows an image arrangement method in a case where the resolution of the moving picture reproducing apparatus or the display apparatus (monitor) is equal to or higher than the resolution of the original moving picture data and thus includes all r x N pictures.

In the present invention, a circular screen is divided into N by 360 degrees with a line having radius r, and image information on each line is read. Next, create a screen of r x N with each r as a vertical line. The created image is read by each of the four LED array modules 300 (LED BAR). 14, a circular picture of the original moving picture is converted into an rx N picture to generate a first frame (frame 0), which is represented by an rx N picture of frame 0 (1410) 4, the frame 0 is divided into four subframes (# 1 to # 4). Each sub-frame is disposed in each LED array module 300 of the display device. Each LED array module reads out image information on a radial straight line out of the image information of the sub-frame disposed in the r x N screen itself, and displays all the image information while rotating to 90 degrees.

Next, since the second frame (frame 1, 1420) of the circular motion picture is generated and each LED array module of the display device is rotated by 90 degrees, the fourth to the fourth server frames from the frame 1 are LED The first, second, and third orders of the array module 300 are arranged.

Fig. 15 shows another example of a method of arranging r x N images according to the present invention in a display device. FIG. 15 shows a case where the resolution of the r x N image is higher than that of the moving picture reproducing apparatus or the display (monitor) so that the r x N image exceeds the moving picture reproducing apparatus or the monitor resolution. 15 (a) shows a case where the r x N image exceeds the resolution of the moving picture reproducing apparatus or the display (monitor). 15 (b) shows an actual moving picture as an r x N image reproduced on a moving picture reproducing apparatus or displayed on a display device.

15, when the rx N image exceeds the resolution of the motion picture reproducing apparatus or the display (monitor), only the portion of the rx N image that does not exceed the resolution of the motion picture reproducing apparatus or the display (monitor) Or displayed on the display device, and the excess portion is not reproduced or displayed. In order to solve the above problem, another example of a method of arranging r x N images will be described below.

16 shows another example of a method of arranging r x N images according to the present invention. 16 shows a method of rearranging r x N images when the resolution of the moving picture reproducing apparatus or the display device (monitor) is lower than that of the original moving picture data so that the r x N image exceeds the moving picture reproducing apparatus or the monitor resolution.

Divide the circle screen into N lines by the line with radius r, and read the image information on each line. Next, create a screen of r x N with each r as a vertical line. As shown in FIG. 16, a circular picture of the original moving picture is converted into an r x N picture to generate a first frame (frame 0), which is divided into four subframes (# 1 to # 4). The first and second subframes, and the third and fourth subframes are arranged up and down to regenerate the r x N screen. Each sub-frame of the generated r x N screen is placed in each LED array module of the display device. Each LED array module reads out image information on a radial straight line out of the image information of the sub-frame disposed in the r x N screen itself, and displays all the image information while rotating to 90 degrees.

FIG. 17 shows another example of a method of arranging r x N images according to the present invention using actual moving pictures. As shown in FIG. 17, an original moving image is converted into an r x N image using an actual moving image, and is reproduced by a moving image reproducing apparatus or displayed on a display device.

18 illustrates an image processing method of a circular moving picture image processing apparatus according to another embodiment of the present invention. The image processing method of the circular moving picture image processing apparatus according to another embodiment of the present invention includes an input step S100, a changing step S200, a reproducing step S300, a controlling step S400, and a displaying step S500 .

In the input step S100, selection of an exposed part and input of an original moving picture are performed in the original moving picture.

In the changing step S200, the step of changing the original moving picture information into the r x N screen based on the original moving picture and the display part selection information is performed.

In the reproduction step (S300), a step of reproducing the r x N picture is performed. Wherein the reproducing step comprises the steps of: dividing a screen of a moving picture of a circular shape into N lines by a line having a radius r, and reading image information on each line to generate the r x N screen; And a process of making a screen of r x N with each r line as a vertical line. The reproducing step may further include the step of applying the reading process and the creating process to all the frames of the moving image in the circular form to obtain the r x N screen and then making the rectangular moving picture. In the process of reading the image information on each line, if the radius of the image information on the radial line is vertical or horizontal, one pixel value of the screen of the original moving image overlapping the pixel of the image information on the radial line is read, When the radius of the image information on the radial line is a diagonal line, the pixel information of the image information on the radial line is determined by calculating the pixel value based on the pixel information of the surrounding pixels of the original moving image overlapping with the pixel information of the image information.

When the resolution of the r x N image is higher than the resolution of the moving picture reproducing apparatus or the display (monitor), the r x N picture exceeds the moving picture reproducing apparatus or the monitor resolution. In order to solve this problem, it is possible to arrange the r x N screens in parallel so as not to exceed the moving picture reproducing apparatus or the monitor resolution. To this end, the reproducing step includes the steps of: dividing the screen of the moving picture of the circular form into a line having a radius r by N, and reading image information on each line to generate the r x N screen; A process of creating a screen of r x N with each r line as a vertical line; And r x N are divided into two horizontally and vertically arranged screens.

The controlling step S400 is a step of receiving a reproduced r x N screen and transmitting a control signal for driving the LED array module to display an image on the LED array module. The control step receives the reproduced r x N picture and divides the reproduced r x N picture into L subframes and transmits a control signal for driving the LED array module to display each of the subframes in the L LED array modules.

In the displaying step S500, the LED array module performs the step of displaying the circular image by the control signal.

19 illustrates an image processing method of a circular moving picture image processing apparatus according to another embodiment of the present invention. The image processing method of the circular moving picture image processing apparatus according to another embodiment of the present invention includes an inputting step S1100, a reproducing step S1200, a rearranging step S1300, a controlling step S1400, and a displaying step S1500 And the like.

In the input step S1100, selection of the display part and input of the original moving picture are performed in the original moving picture.

In the reproduction step S1200, a step of reproducing a rectangular image including a moving picture based on the original moving picture and the displayed part selection information is performed based on the original moving picture and the displayed part selection information.

In the rearranging step S1300, the reproduced rectangular image information is rearranged to the rxN screen. Wherein the rearranging step comprises the steps of: dividing the screen of the rectangular image by a line having a radius of r by N, and reading the image information on each line to rearrange the screen into the r x N screen; And a process of making a screen of r x N with each r line as a vertical line. In the rearranging step, all the frames of the rectangular image are subjected to the reading process and the creating process to obtain a rxN screen, and a rectangle-shaped moving picture is generated.

In the controlling step S1400, a control signal for driving the LED array module is transmitted in order to display an image on the LED array module using the rearranged r x N screen.

In the displaying step S1500, the LED array module rotates to expose the circular image by the control signal.

Meanwhile, the image processing method according to an exemplary embodiment of the present invention may be implemented in a form of a program command that can be executed through a variety of means for processing information electronically and recorded in a storage medium. The storage medium may include program instructions, data files, data structures, and the like, alone or in combination.

Program instructions to be recorded on the storage medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of software. Examples of storage media include magnetic media such as hard disks, floppy disks and magnetic tape, optical media such as CD-ROMs and DVDs, magneto-optical media such as floptical disks, magneto-optical media and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as devices for processing information electronically using an interpreter or the like, for example, a high-level language code that can be executed by a computer.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be understood that the invention may be varied and varied without departing from the scope of the invention.

Claims (18)

A circular moving picture image processing apparatus comprising:
A video to be transmitted to the moving picture reproducing apparatus by converting the original moving picture and the selection information of the display portion to the moving picture reproducing apparatus or changing the circular moving picture information into the moving picture of the rectangular form (rx N picture) A processor;
The display control unit receives the selection of the display portion and the original moving picture from the original video and reproduces the rx N screen by changing the circular motion picture information to the rx N screen based on the original moving picture and the display portion selection information, N screen to reproduce the rx N screen, or receives the selection of the display part and the original moving picture from the original moving picture from the video processing part, and reproduces the rectangular picture including the circular moving picture based on the original moving picture and the display part selection information A moving picture reproducing apparatus;
Receives a rx N picture reproduced by the moving picture reproducing apparatus and transmits a control signal for driving the LED array module to display an image on the LED array module or changes the reproduced square picture received from the moving picture reproducing device to rx N picture An LED driver for transmitting a control signal for driving the LED array module to display an image on the LED array module using the changed rx N screen; And
And an LED array module for displaying a circular image while rotating by a control signal of the LED driving device,
The video processing unit, moving picture reproducing apparatus or LED driving apparatus
Reading the image information on each line by dividing the screen of the moving picture of the circular shape into N by 360 degrees with a line having a radius of r to change to the rx N screen; And
And generating a screen of rx N with each r line as a vertical line.
delete The method according to claim 1,
The video processing unit, the moving picture reproducing apparatus, or the LED driving apparatus may further include a step of obtaining the rx N picture by applying the reading process and the creating process to all the frames of the moving picture in the circular form, A circular motion image processing device. The method according to claim 1,
The process of reading the image information on each line
If the radius of the image information on the radial line is vertical or horizontal, one pixel value of the screen of the original moving image overlapping the pixel of the image information on the radial line is read,
If the radius of the image information on the radial line is diagonal, the pixel information of the image information on the radial line is determined by calculating the pixel value based on the pixel information of the surrounding pixels of the original moving image overlapping with the pixel information of the image information Wherein the circular moving picture image processing apparatus comprises: 5. The method of claim 4,
Wherein the calculation of the pixel value based on the pixel information of the peripheral pixels is performed by the following equation (1).
[Equation 1]

Where S is the scaling factor,
d _k : distance between the center of the pixel of the image information on the radial line and the center of the k-th pixel of the surrounding pixels,

: Pixel information of the kth pixel among the surrounding pixels,
n: Number of surrounding pixels. The method according to claim 1,
In order to generate the rx N picture, the video processing unit, the moving picture reproducing apparatus, or the LED driving apparatus divides the screen of the moving picture of the circular form into N lines by using a line of radius r, and reads the picture information on each line ;
A process of making a screen of rx N with each r line as a vertical line; And
and arranging the screen of the circular moving picture image by dividing a screen of rx N into two horizontally and vertically. The method according to claim 1,
Wherein the LED driving device transmits a control signal for driving the LED array module so as to divide the rx N screen into L subframes and display each subframe on each of the L LED array modules. . An image processing method of a circular moving picture image processing apparatus,
An input step of selecting a display portion and inputting an original moving picture in an original moving picture;
A changing step of changing the circular moving picture information into the rx N picture based on the original moving picture and the display part selection information;
A reproducing step of reproducing the rx N picture;
A control step of receiving a reproduced rx N screen and transmitting a control signal for driving the LED array module to display an image on the LED array module; And
And a display step of displaying a circular image while rotating by the control signal,
Wherein the reproducing step comprises the steps of:
A process of reading image information on each line by dividing the screen of the circular form into N lines of 360 degrees with a line of radius r; And
A process of making a screen of rx N with each r line as a vertical line;
And outputting the processed moving image data. delete 9. The method of claim 8,
Wherein the reproducing step further comprises the step of obtaining the rx N picture by applying the reading process and the creating process to all the frames of the moving picture in the circular form, and thereby creating a rectangular moving picture. Processing method. 9. The method of claim 8,
The process of reading the image information on each line
If the radius of the image information on the radial line is vertical or horizontal, one pixel value of the screen of the original moving image overlapping the pixel of the image information on the radial line is read,
If the radius of the image information on the radial line is diagonal, the pixel information of the image information on the radial line is determined by calculating the pixel value based on the pixel information of the surrounding pixels of the original moving image overlapping with the pixel information of the image information And the image processing method of the circular moving picture image processing apparatus. 12. The method of claim 11,
Wherein the calculation of the pixel value based on the pixel information of the peripheral pixels is performed by the following equation (1).
[Equation 1]

Where S is the scaling factor,
d _k : distance between the center of the pixel of the image information on the radial line and the center of the k-th pixel of the surrounding pixels,

: Pixel information of the kth pixel among the surrounding pixels,
n: Number of surrounding pixels. 9. The method of claim 8,
Wherein the reproducing step comprises the steps of:
A process of reading image information on each line by dividing the screen of the circular form into N lines of 360 degrees with a line of radius r;
A process of making a screen of rx N with each r line as a vertical line; And
and dividing a screen of rx N into two horizontally and horizontally. 9. The method of claim 8,
Wherein the control step transmits a control signal for driving the LED array module to receive the reproduced rx N picture and divide the reproduced rx N picture into L subframes and display the respective subframes in the L LED array modules, A video processing method of a moving image processing apparatus. An image processing method of a circular moving picture image processing apparatus,
An input step of selecting a display portion and inputting an original moving picture in an original moving picture;
A reproduction step of reproducing a rectangular image including a circular motion picture based on the original moving picture and the presentation part selection information based on the original moving picture and the presentation part selection information;
Rearranging the reproduced rectangular image into an rx N picture;
A control step of transmitting a control signal for driving the LED array module to display an image on the LED array module using the rearranged rx N screen; And
And a display step of displaying a circular image while rotating by the control signal,
Wherein the rearranging step comprises the steps of:
A process of reading image information on each line by dividing a screen of a rectangular image into N by 360 degrees with a line having a radius r; And
A process of making a screen of rx N with each r line as a vertical line;
And the image processing method of the circular moving picture image processing apparatus. delete 16. The method of claim 15,
Wherein the rearranging step further comprises the step of obtaining the rx N picture by applying the reading process and the creating process to all the frames of the rectangular picture, and thereby making a rectangular moving picture, . A computer-readable recording medium having recorded thereon a program for executing the method of any one of claims 8, 10 to 15, and 17.

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