KR101391780B1 - System and method for ouputting multiful image and a medium having computer readable program for executing the method - Google Patents

Abstract

A system and a method for outputting multi-images, and a medium storing a computer-readable program for executing the method are disclosed. The system for outputting multi-images includes an image file input unit, an arrangement input unit, a virtual image generation unit, and an image output unit. The image file input unit receives an image file to be played, the arrangement input unit receives the arrangement of image output devices where an image file to be played is to be outputted, the virtual image generation unit creates a virtual image when an image file is played on a screen, and the image output unit divides a created virtual image according to the arrangement of the image output devices, and outputs the virtual images to corresponding image output devices, respectively. According to the configuration described above, an image to be outputted is created, the created image is divided as it is, and the divided images are transmitted to corresponding image output devices not to require generation of an image to be outputted for each image output device, thereby easily outputting a desired image through a plurality of image output devices without high-priced equipment.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a multiple image output system, a method, and a medium in which a computer-readable program for executing the method is recorded. ≪ Desc / Clms Page number 1 >

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a video output system and method, and more particularly, to a system and method for simultaneously outputting video to a plurality of video output apparatuses.

A multi-vision system in which a plurality of televisions output a single image together at a place such as an exhibition is often seen. Here, the multi-vision system refers to a presentation facility that uses a device that combines screens to form a single screen or a multi-display.

Figure 1 is a schematic block diagram of a general multivision system. 1, the multivision system 10 includes a control PC 11, a media server 12, a distributor 13, a monitor control PC 14, and a monitor 15.

1, the conventional multi-vision system 10 requires expensive equipment such as the distributor 13 to appropriately distribute the images stored in the media server 12 to the individual image output apparatuses 15 do.

However, such a device is expensive, and the price increases sharply as the number of channels increases, and the system 10 is constituted by one control server and a plurality of playback clients, which is inconvenient to install and manage.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a multiple image output system and a method for outputting a desired image through a plurality of image output apparatuses without expensive equipments. do.

In order to achieve the above object, a multiple image output system according to the present invention includes an image file input unit, an arrangement input unit, a virtual image generation unit, and an image output unit.

The image file input unit receives the image file to be reproduced, and the array input unit receives the array of the image output device from which the image file to be reproduced is outputted. The virtual image generating unit generates a virtual image when the image file is reproduced on one screen And the video output unit divides the generated virtual images according to the arrangement of the video output apparatuses and outputs them to the corresponding video output apparatuses.

According to such a configuration, it is not necessary to separately generate an image to be output for each image output device by generating an image to be output, dividing the image to be output, and outputting it to a corresponding image output device, So that a desired image can be output.

At this time, the virtual image can be generated as one image for a plurality of image files. According to such a configuration, not only one image but also a plurality of images related to each other can be simultaneously output through the plurality of image output apparatuses.

Also, the plurality of image files may be files for reproducing an image for combining stereoscopic images. According to such a configuration, it is possible to easily implement a stereoscopic image by outputting left and right images using different video output devices.

In addition, the virtual image generation unit may distribute a thread of a central processing unit (CPU) to a plurality of image files. According to this configuration, the resources of the central processing unit are efficiently distributed, so that the image can be smoothly reproduced even for a high-resolution image.

In addition, the virtual image generation unit may generate a virtual image using a GPU acceleration. With this configuration, it is possible to reproduce a high-quality image while reducing the occupancy rate of the central processing unit.

Also disclosed is an invention in which the system is implemented in the form of a method and a medium on which a computer-readable program for executing the method is recorded.

According to the present invention, it is not necessary to separately generate an image to be output for each image output device by generating an image to be outputted and dividing it into a corresponding image output device, thereby easily outputting a plurality of image output devices So that a desired image can be output.

In addition, not only one image but also a plurality of images related to each other can be simultaneously outputted through a plurality of image output devices.

Also, it is possible to easily implement a stereoscopic image by outputting left and right images with different image output devices.

In addition, by distributing the resources of the central processing unit efficiently, it is possible to smoothly reproduce images even for high resolution images.

In addition, it is possible to reproduce a high-quality image while reducing the occupancy rate of the central processing unit.

1 is a schematic block diagram of a general multivision system;
2 is a schematic block diagram of a multiple image output system in accordance with the present invention;
3 is a flowchart illustrating a process of generating a virtual image for a plurality of image files.
4 is a view showing a general video playback method;
5 is a diagram illustrating a method of reproducing a stereoscopic image.
FIG. 6 is a more detailed view of FIG. 3 when applied to a stereoscopic image. FIG.
7 is a diagram illustrating examples of a virtual screen divided by a video output unit.
8 is a diagram further illustrating a process of separating audio and video from an original file;
9 is a diagram showing a system configuration for performing the process of FIG. 8;
10 is a diagram showing an internal configuration of a decoder in the present invention;

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

2 is a schematic block diagram of a multiple image output system according to the present invention. 2, the multiple image output system 100 includes an image file input unit 110, an arrangement input unit 120, a virtual image generation unit 130, and an image output unit 140.

In FIG. 2, each component of the multiple image output system 100 may be implemented in hardware, but may be implemented in software operating on a general-purpose computer.

The image file input unit 110 receives the image file to be reproduced, and the arrangement input unit 120 receives the image data to be reproduced. When inputting by the user input, the image file can be input in a format in which some of the stored files are selected, and the arrangement of the image output apparatus can be input in a manner of selecting one of various arrangement types allowed by the system 100 .

The virtual image generation unit 130 generates a virtual image when the image file is reproduced on one screen. The virtual image may be thought of as outputting an image to one virtual plate, and it can be expressed that the image is mounted on the engine that implements the virtual image generating unit 130 again.

At this time, the virtual image can be generated as one image for a plurality of image files. According to such a configuration, not only one image but also a plurality of images related to each other can be simultaneously output through the plurality of image output apparatuses.

3 is a flowchart illustrating a process of generating a virtual image for a plurality of image files. In FIG. 3, it is confirmed that decoding processes corresponding to the number of files are generated, and then decoding and rendering are repeated for the number of frames of an image.

At this time, the plurality of image files may be files for reproducing an image for combining stereoscopic images.

FIG. 4 is a diagram illustrating a general image reproduction method, and FIG. 5 is a diagram illustrating a stereoscopic image reproduction method. As can be seen from FIG. 4, a general image reproduction method is performed by decoding an original image file with a decoder and rendering the image file to a hardware device. However, in the stereoscopic image, as shown in FIG. 5, a process of separating left and right images is added.

FIG. 6 is a diagram showing in more detail the case where FIG. 3 is applied to the case of a stereoscopic image. In this manner, stereoscopic images can be realized more easily than when outputting the left / right images to different image output devices.

The virtual image generation unit 130 may distribute a thread of a central processing unit (CPU) to a plurality of image files. According to this configuration, the resources of the central processing unit are efficiently distributed, so that the image can be smoothly reproduced even for a high-resolution image.

In other words, you can allocate CPU threads per channel (allocate 1 thread per video), which decodes 1 channel of frames per thread. Intel CPUs are capable of 2 threads per core, so 16 threads can be created dynamically for 8 core CPUs.

If the number of video channels is increased, if the screen resolution exceeds the 3D OffSreen Buffer size that can be output from the graphics card, the GPU of the graphics card can not be used, and the CPU may be burdened by playing the video only with the CPU. According to the present invention, CPU resources are efficiently distributed in accordance with the number of cores even in a multi-channel and high-resolution moving picture playback state, and thus higher performance is achieved as the number of cores increases.

In addition, the virtual image generating unit 130 may generate a virtual image using a graphics processing unit (GPU) acceleration. With this configuration, it is possible to reproduce a high-quality image while reducing the occupancy rate of the central processing unit.

The video output unit 140 divides the generated virtual images according to the arrangement of the video output devices, and outputs the divided virtual video to the corresponding video output devices.

7 is a diagram showing examples of virtual screens divided by the video output unit. As can be seen from FIG. 7, according to the present invention, it is possible to output images in various numbers according to the needs of the user rather than a fixed screen size or number, and a screen size as defined by the user.

FIG. 8 is a diagram further illustrating a process of separating audio and video from the original file, FIG. 9 is a diagram illustrating a system configuration for performing the process of FIG. 8, and FIG. 10 is a diagram illustrating an internal configuration of a decoder Fig.

The present invention is optimized for a multiprocessing environment by rendering images separately for each frame, and supports the GPU acceleration (OPEN CL, CUDA), so that the burden of the central processing unit can be reduced by software. In addition, by this, it is possible to perform image processing of HD class per channel by outputting without frame drop from one PC to many channels.

Therefore, according to the present invention, high resolution and multi-channel 3D stereoscopic images can be controlled by a single PC without expensive equipment. In addition, since it is executed in one PC, the frame sync problem of each channel image can be solved.

Although the present invention has been described in terms of some preferred embodiments, the scope of the present invention should not be limited thereby but should be modified and improved in accordance with the above-described embodiments.

10: Multi-vision system
11: Control PC
12: Media server
13: Dispenser
14: Monitor control PC
15: Monitor
100: Multiple image output system
110: image file input unit
120: array input unit
130: virtual image generation unit
140: Video output unit

Claims (11)

A video file input unit for receiving a video file to be reproduced;
An array input unit for receiving an array of video output devices to which the video file to be reproduced is to be output;
A virtual image generation unit for generating a virtual image when the image file is reproduced on one screen; And
And a video output unit for dividing the generated virtual images according to the arrangement of the video output apparatuses and outputting the divided virtual images to corresponding video output apparatuses,
Wherein the virtual reproduction image is generated as one image for a plurality of image files,
Wherein the virtual image generation unit distributes a thread of a central processing unit (CPU) to the plurality of image files. delete The method according to claim 1,
Wherein the plurality of image files are files for reproducing an image to be combined with each other to implement a stereoscopic image. delete The method according to claim 1,
Wherein the virtual image generating unit generates a virtual image using a GPU acceleration. A video file input step of inputting a video file to be reproduced;
An array input step of receiving an array of video output devices to which the video file to be reproduced is to be output;
A virtual image generation step of generating a virtual image when the image file is reproduced on one screen;
Dividing the generated images according to the arrangement of the image output apparatuses, and outputting the divided images to corresponding image output apparatuses,
Wherein the virtual reproduction image is generated as one image for a plurality of image files,
Wherein the virtual image generating step distributes a CPU thread to a plurality of image files. delete The method according to claim 6,
Wherein the plurality of image files are image files for reproducing an image to be combined with each other to implement a stereoscopic image. delete The method according to claim 6,
Wherein the virtual image generation step uses GPU acceleration. A medium on which a computer-readable program for executing the method according to any one of claims 6, 8 and 10 is recorded.

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