KR100912809B1 - Method servicing second dimension and second-third dimension mixed image in specific field of by inserting third dimension image in specific field of second dimension image - Google Patents

Abstract

The present invention relates to a method of serving a 2D, 2, and 3D mixed image by inserting a 3D image into a specific region of a 2D image, and allocating a specific region to express a 3D image in the 2D image. Storing information including the location and size of a specific region, pasting a left image of the 3D image to be expressed in the specific region of the 2D image by applying a mask to a reference point position of the specific region, and the 3D Transmitting or storing the two-dimensional image in which the left image of the image is pasted to the receiving terminal through a multiplexing method, and replicating the transmitted or stored two-dimensional image and doubling the width in the horizontal direction. By allowing 3D video to be played only in specific event partial scenes such as advertisements in 3D videos, it is possible to enhance the viewing and advertising effect while at the same time It can reduce the visual fatigue caused by watching the video.

2D, 3D digital broadcasting (3D TV), DMB, DTV, specific area, paste

Description

Method of servicing second dimension and second-third dimension mixed image in specific field of by inserting third dimension image in specific field of second dimension image}

The present invention relates to a method of serving two-dimensional, two- and three-dimensional mixed images by inserting a three-dimensional image into a specific region of a two-dimensional image, and more particularly, to a video screen during a video service in digital broadcasting or a media storage medium. It is a video service method that maximizes the effect of viewing and advertising when broadcasting and playing advertisement or news by showing only a specific area as 3D stereoscopic image.

The present invention is derived from the research conducted as part of the IT new growth engine core technology development project of the Ministry of Information and Communication and the Ministry of Information and Communication Research and Development. [Task Management Number: 2005-S-403-02, Title: Intelligent Integrated Information Broadcasting (SmaR TV) Technology Development].

The stereoscopic effect on the 3D stereo image is an important factor that expresses the stereoscopic effect by the binocular parallax, which is the parallax between left and right, and is generally composed of a reference image and various types of 3D additional images. It is converted to the left and right images and reproduced on a three-dimensional display, thereby making it feel a three-dimensional effect.

3D stereo images have a disadvantage that they cannot be watched for a long time due to physiological inconveniences such as visual fatigue, headache, and dizziness that occur during a long time viewing, and technical studies have been conducted.

Therefore, if two-dimensional video becomes a basic background rather than a three-dimensional dedicated video service and can provide three-dimensional still images and videos on partial screens, applying it as a three-dimensional service for advertisements or other event subtitles can cause time fatigue. At the same time, it can maximize the effectiveness of advertising or events.

As a technical problem to be achieved by the present invention, by applying a parallax barrier method and a lenticular method, a technical method for allowing a 3D and 2D mixed service to be transmitted and received through a digital broadcasting system or provided from a stored medium such as PMP to provide.

Another technical problem to be achieved by the present invention is to satisfy the backward compatibility to enable the reception and playback from the existing terminal through the two-dimensional service of the existing digital broadcasting system and storage media, the new three-dimensional terminal is a two-dimensional service and three-dimensional service It includes a method that can be used to receive and play back mixed.

In order to solve the above technical problem, a method of serving a 2D image by inserting a 3D image into a specific region of the 2D image proposed in the present invention includes: (a) allocating a specific region in which the 3D image is to be expressed in the 2D image And storing information including the position and size of the specific region; (b) attaching a left image of the 3D image to be expressed in the specific region of the 2D image by applying a mask to a reference point position of the specific region; (C) transmitting or storing the two-dimensional image in which the left image of the three-dimensional image is pasted to the receiving terminal through a multiplexing method; and (d) copying the transmitted or stored two-dimensional image in the horizontal direction. It characterized in that it comprises a step of magnification.

In addition, in step (b), the left image of the 3D image is divided into masks, and only the portion masked with “0” is copied without copying the portion masked with “1”, and the 2D image and the 3D image are copied. A single image is generated through an EOR operation applying a mask to a left image of an image.

Also, in the step (b), when the left image of the 3D image is pasted in a translucent form, “0” and “1” are alternated between neighboring masks in a portion corresponding to “0” of the mask. Masking to be represented.

In order to solve the above technical problem, a method of serving a 2D and 3D mixed image by inserting a 3D image into a specific region of the 2D image proposed in the present invention is (a) specifying a 3D image to be expressed in the 2D image. Allocating a region and copying a part of the 2D image corresponding to the allocated specific region; (b) a reference point position of the specific region of the left image of the 3D image to be expressed in the specific region of the 2D image; Applying a mask to and pasting the mask and pasting the right image of the 3D image to a part of the copied 2D image by applying a mask (c) the 2D image to which the left image of the 3D image is pasted; Separating a part of the 2D image to which the right image of the 3D image is pasted and transmitting or storing the 2D image to the receiving terminal through a multiplexing method together with the information, (d) the transmitted or stored secondary Pasting a part of the 2D image to a specific region of the right image to which the image is copied; and (e) arranging the transmitted or stored 2D image and the right image pasting a part of the 2D image through interleaving. Generating a 3D playback image.

In addition, in step (b), the left image of the 3D image is divided into masks, and only the portion masked with “0” is copied without copying the portion masked with “1”, and the 2D image and the 3D image are copied. A single image is generated through an EOR operation to which a left-projection mask of an image is applied.

In addition, in step (b), the right image of the 3D image is divided into a mask, and only the portion masked with “0” is copied without copying the portion masked with “1”. A single image is generated by performing an EOR operation applying a mask to the right image of the 3D image.

In addition, in the step (b), when the 3D image is pasted in a semi-transparent form, masking is performed such that “0” and “1” are alternately expressed between neighboring masks at a portion corresponding to “0” of the mask. Characterized in that.

In order to solve the above technical problem, a method of serving a 2D image by inserting a 3D image into a specific region of the 2D image proposed in the present invention may be represented in (a) the 2D image and the specific region of the 2D image. Receiving the left image and the right image of the 3D image and storing information including the position and the size of the specific region; (b) separating the 2D image and the left image of the 3D image and Transmitting or storing to a receiving terminal through a frame multiplexing method; (c) pasting a left image of the 3D image to a specific region of the 2D image by applying a mask to a reference point position of the specific region; and (d) And duplicating the two-dimensional image in which the left image of the three-dimensional image is pasted and enlarged twice in the horizontal direction.

In addition, in step (c), the left image of the 3D image is divided into a mask, and only the portion masked with “0” is copied without copying the portion masked with “1”, and the 2D image and the 3D image are copied. A single image is generated through an EOR operation applying a mask to a left image of the image.

Also, in the step (c), when the left image of the 3D image is pasted in a translucent form, “0” and “1” are alternated between neighboring masks in a portion corresponding to “0” of the mask. Masking to be represented.

In order to solve the above technical problem, a method of serving a 2D and 3D mixed image by inserting a 3D image into a specific region of the 2D image proposed in the present invention is (a) a specific region of the 2D image and the 2D image. Receiving a left image and a right image of the 3D image to be expressed in the image, and storing information including the position and size of the specific region; (b) the left image and the right image of the 2D image and the 3D image; Separating and transmitting or storing the left image of the 3D image in a specific region of the transmitted or stored 2D image to a receiving terminal through a multiplexing method together with the information; Applying and pasting, (d) masking the right image of the 3D image to a reference point position of the specific region on a specific region of the right image to which the transmitted or stored 2D image is copied Interleaving between the two-dimensional image pasting the left image of the three-dimensional image in step (c) and the right image of the right image of the three-dimensional image in step (d) And arranging the intersections to generate a 3D playback image.

In addition, in step (c), the left image of the 3D image is divided into a mask, and only the portion masked with “0” is copied without copying the portion masked with “1”, and the 2D image and the 3D image are copied. A single image is generated through an EOR operation applying a mask to the left image of the image.

In the step (d), the right image of the 3D image is divided into masks, and only the portion masked with “0” is copied without copying the portion masked with “1”, and the 2D image is copied. The image and the right image of the 3D image is characterized by generating a single image through an EOR operation applying a mask.

In addition, in the step (c), when the 3D image is pasted in a semi-transparent form, masking is performed such that “0” and “1” are alternately expressed between neighboring masks at a portion corresponding to “0” of the mask. Characterized in that.

In the step (d), when the 3D image is pasted in a translucent form, masking is performed such that “0” and “1” are alternately expressed between neighboring masks at a portion corresponding to “0” of the mask. Characterized in that.

In order to solve the above technical problem, a method of serving a 2D and 3D mixed image by inserting a 3D image into a specific region of the 2D image proposed in the present invention is (a) specifying a 3D image to be expressed in the 2D image. Allocating a region to store information including the position and size of the specific region, and copying a part of the 2D image corresponding to the allocated specific region, (b) to be represented in the specific region of the 2D image Pasting the left image of the 3D image by applying a mask to a reference point position of the specific region and pasting the right image of the 3D image by applying a mask to a portion of the copied 2D image, (c) The 2D image to which the left image of the 3D image is pasted and the part of the 2D image to which the right image of the 3D image is pasted are separated and transmitted or stored to the receiving terminal through a multiplexing method. (D) pasting a part of the 2D image to a specific area of the right image to which the copied or transmitted 2D image is copied; (e) copying the transmitted or stored 2D image to a horizontal direction 2 Generating a 2D service image by doubling the magnification; and (f) generating a 3D playback image by arranging the transmitted or stored 2D image and a right image where a part of the 2D image is pasted through interleaving. It is characterized by including.

In order to solve the above technical problem, a method of serving a 2D and 3D mixed image by inserting a 3D image into a specific region of the 2D image proposed in the present invention is (a) a specific region of the 2D image and the 2D image. Receiving a left image and a right image of the 3D image to be expressed in the image, and storing information including the position and size of the specific region; (b) the left image and the right image of the 2D image and the 3D image; Separating and transmitting or storing the left image of the 3D image in a specific region of the transmitted or stored 2D image to a receiving terminal through a multiplexing method together with the information; Applying and pasting, (d) masking the right image of the 3D image to a reference point position of the specific region on a specific region of the right image to which the transmitted or stored 2D image is copied Applying and pasting and (e) replicating the 2D image pasted the left image of the 3D image to generate a 2D service image by doubling in the horizontal direction, (f) in step (c) Generating a 3D playback image by arranging a secondary image pasting the left image of the 3D image and the right image pasting the right image of the 3D image through interleaving in the step (d); Characterized in that.

As described above, in the digital broadcasting of the present invention, when a 3D video is inserted into a specific region of a 2D video to serve a 2D and 3D mixed video, a specific event may be partial, such as an advertisement, in the 2D video of the digital broadcasting. By allowing a 3D image to be played only in a scene, it is possible to enhance the viewing and advertisement effects and to reduce visual fatigue due to viewing the 3D image.

As described above, a method of serving two- and three-dimensional mixed images by inserting a three-dimensional image into a specific region of the two-dimensional image according to the present invention includes terrestrial DTV, digital cable (DCATV), terrestrial DMB, and Internet broadcasting (IPTV). It can be easily used to provide 3D advertisements, 3D education materials, 3D instant message services, etc. in various broadcasting media.

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

1 is a view for explaining a conventional three-dimensional display method of the parallax barrier method.

2 is a view for explaining a conventional lenticular three-dimensional display method.

Hereinafter, both methods will be described together.

The way to watch stereoscopic images without glasses can be divided into parallax barrier and lenticular.

The parallax barrier method was proposed in 1903 by the US F.E.Ives, a stereoscopic method called the parallax stereogram.

In this method, as shown in Fig. 1, two left and right images are alternately arranged on the LCD panel at an appropriate interval behind a slit opening defined by a parallax barrier to separate left and right images when viewed through the opening at a specific point in time. You can watch a three-dimensional image.

The lenticular method was patented by H.E.Ives in 1932 for lenticular stereo.

The principle of this method is that the left and right images are alternately arranged on the focal plane of a lens called a lenticular screen having a semi-cylindrical shape as shown in FIG. 2, and when viewed through the lens plate, the left and right images are changed according to the orientation of the lens plate. This separation allows viewing of stereoscopic images without glasses.

These two methods have a feature of obtaining a stereoscopic effect for binocular disparity by alternately arranging the left and right images as shown in FIG. 3 to be described in detail below.

3 is a diagram illustrating a method of constructing a 3D image through left / right image shifting according to an exemplary embodiment of the present invention.

As shown in FIG. 3, in the use of a three-dimensional stereoscopic display through cross-alignment, a mixed method of 3D and 2D is to transmit and store a 2D image itself for backward compatibility with an existing broadcasting system. Then, additional data for composing a 3D image is separated and transmitted or stored.

On the receiving or reproducing side, the two-dimensional terminal reproduces the two-dimensional image, and in the case of the three-dimensional terminal, the two-dimensional and three-dimensional data are synthesized according to the steps to be described below to configure the three-dimensional and two-dimensional screen.

Each step is described as follows.

The step-by-step explanation is divided into two methods, and the first method is to paste the left image of the 3D image to be shown in the specific region on the 2D image without the need for special processing. It's a way to make it appear in dimensions.

In this case, when a part of the 3D image is broadcasted, the left image of the 3D content is reproduced in 2D on the screen for reproducing the 2D terminal, so the user owning the 2D terminal may also watch the 3D content in 2D. To be able.

The second method involves the concept of objects using BIFS or middleware.

In the two-dimensional image, the three-dimensional right image is not shown, but the three-dimensional left image and the right image are transmitted as a single object separately from the two-dimensional image according to the method of representing the three-dimensional object. How to configure the scene by receiving separately.

In this method, in case of a 2D terminal receiving and playing data broadcasting using BIFS or middleware, the 3D left image may be recognized as additional data, and the scene may be played by pasting the 3D left image when the 2D screen is played.

In other words, if this method is applied to a two-dimensional terminal that supports data broadcasting, the three-dimensional left image of a specific region can be viewed as a two-dimensional image. However, in the case of a simple two-dimensional terminal, the left image of the three-dimensional content can be received and reproduced. There is no number.

A detailed step-by-step description of the first method is shown in FIG. 4A.

4A is a diagram illustrating a method of superimposing a 3D right image on a specific region of a 2D image in a digital broadcasting and storage medium according to an exemplary embodiment of the present invention.

Looking at the step of Figure 4a,

Step 1: Copy a specific region of the 2D image corresponding to the specific region to be expressed in 3D from the 2D image.

When the content to be shown in a specific area is produced in three dimensions, two images of left and right images having binocular disparity are prepared. When the three-dimensional urban content is a two-dimensional image, the right image is copied from the left image. do.

The range of the specific region is specified as the specific region range up to the region including the movement of the right image because the parallax is generated through the shift of the existing left image and the right image of the 2D content.

4A is an embodiment showing one pixel shift. In the first step, information about the position and size of a specific area is stored for 3D reproduction.

Step 2: The left image of the 3D content is pasted to a specific region of the 2D image by applying a mask at the reference point position of the specific region.

The right image of the 3D content is masked and pasted to the specific region image of the 2D image generated in the first step.

When three-dimensional content is authored from two-dimensional content, a range of a specific area is determined, including a region through left- and right-side video movement, and the three-dimensional content is composed of a left and right image with three-dimensional content. In this case, a specific area of the same area is configured.

The pasting method by applying the mask can be described with reference to FIG. 5.

5 is a diagram illustrating a method of processing a paste image by applying a mask according to an exemplary embodiment of the present invention.

When the pasting is performed as shown in FIG. 5, the part masked by 1 by dividing the object which is a picture area by a mask is not copied, and only the part masked by 0 is copied.

Therefore, when the object O image, the mask M image, and the background B image are pasted by applying a mask, the following image I is obtained.

I = (M AND B) EOR O

In order to make the 3D object to be pasted translucent as shown in FIG. 6, the image (I´) generated by applying semi-transparently by masking with 0 and 1 alternately with 0 and 1, corresponding to 0 of the mask. Uses the following formula:

I´ = (M´AND B) EOR O

The above description has been provided only for clarity among the methods for pasting image objects, and various equivalent methods may occur, and may be viewed in the same way in concept, and the present invention may be practiced without these specific details. It will be obvious to those skilled in the art.

Step 3: Separate the 2D image to which the left image of the 3D content constructed in Step 2 and the right image of the 3D content are separated and transmitted according to a multiplexing method, or store them separately as files.

At this time, the position and size information of the specific region of the 3D content is included and transmitted or stored in a file.

Step 4: In the third step, the image corresponding to the 2D image of the media transmitted or stored is enlarged 2 times horizontally to play back through the existing 2D receiving terminal or player to ensure backward compatibility.

Copies the right image from the left image for 3D playback.

Step 5: Copy the right image of the specific region of the 3D content to the specific position of the copied right image.

Step 6: The left and right images are interleaved through interleaving and reproduced on a 3D display.

A detailed step-by-step description of the second method is shown in FIG. 4B.

4B is a diagram illustrating a method of independently processing a 2D image and a 3D left / right image of a specific region in a digital broadcasting and storage medium according to an exemplary embodiment of the present invention.

Step 1: Prepare a 2D image and 3D content in a specific region. When content to be shown in a specific region is produced in three dimensions, two images, a left image and a right image, in which binocular disparity exists are prepared.

When the urban content is a 2D image, only one 2D image (left image) is prepared.

Step 2: The 2D image constructed in step 1 and the left and right images of the 3D image of a specific region are separated and transmitted according to a multiplexing method, or separated into a file and stored.

At this time, the position and size information of the specific region of the 3D content is included and transmitted or stored in a file.

When the 3D content to be shown in a specific region is a 2D image, only the 2D image (left image) is transmitted without a right image or stored as a file.

Step 3: The right image is made by copying the image corresponding to the 2D image among the media transmitted or stored in step 3.

When the 3D content to be shown in a specific region has only a 2D image, a 2D image corresponding to the right image is generated by copying.

Step 4: Paste the left image of the specific area 3D content by applying a mask to the specific area of the 2D left image, and copy the right image of the specific area 3D content in 2 steps The mask is applied to the specific area of the paste.

If the 3D content of a specific area is 2D content, the right image is positioned at the position where several pixels are moved from the left image. If the 3D content is 3D content, the 3D content is located at the same position of the left and right images. Let's do it.

Step 5: The 2D image corresponding to the left image generated in step 4 is enlarged horizontally 2 times to reproduce through the existing 2D receiving terminal or player to ensure backward compatibility.

The left image and the right image generated in step 4 are interleaved through interleaving and then reproduced on a 3D display.

FIG. 6 is a first flowchart illustrating a method of serving a 2D and 3D mixed image by inserting a 3D image into a specific region of the 2D image according to an exemplary embodiment of the present invention.

By assigning a specific region in which the 3D image is to be expressed in the 2D image, information including the position and size of the specific region is stored, and a part of the 2D image corresponding to the allocated specific region is copied (S600).

Paste a left image of the 3D image to be expressed in a specific region of the 2D image by applying a mask to a reference point position of the specific region, and mask the right image of the 3D image to a part of the copied 2D image. Apply and paste (S610).

The 2D image to which the left image of the 3D image is pasted and the part of the 2D image to which the right image of the 3D image is pasted are separated and transmitted or stored to the receiving terminal through a multiplexing method (S620).

A part of the 2D image is pasted to a specific area of the right image to which the transmitted or stored 2D image is copied (S630), and the 2D service image is doubled in the horizontal direction by copying the transmitted or stored 2D image. It generates (S640).

The transmitted or stored 2D image and the right image in which a part of the 2D image is pasted are alternately arranged through interleaving to generate a 3D reproduction image (S650).

7 is a second flowchart illustrating a method of serving a 2D and 3D mixed image by inserting a 3D image into a specific region of a 2D image according to an exemplary embodiment of the present invention.

A left image and a right image of the 3D image to be expressed in the 2D image and the specific region of the 2D image are provided, and information including the position and the size of the specific region is stored (S700).

The left and right images of the 2D image and the 3D image are separated and transmitted or stored together with the information to a receiving terminal through a multiplexing method (S710).

The left image of the 3D image is pasted by applying a mask to a reference point position of the specific region on the specific region of the transmitted or stored 2D image (S720), and the specific region of the right image, which is copied from the transmitted or stored 2D image. The right image of the 3D image is pasted by applying a mask to a reference point position of the specific region (S730).

The 2D image is copied by pasting the left image of the 3D image and the image is enlarged 2 times in the horizontal direction to generate the 2D service image (S740).

In operation S720, a 2D image in which the left image of the 3D image is pasted and a right image in which the right image of the 3D image is pasted are intersected and interleaved to generate a 3D reproduction image (S750). ).

The invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, and may also be implemented in the form of a carrier wave (for example, transmission over the Internet). Include. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

As described above, optimal embodiments have been disclosed in the drawings and the specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a view for explaining a conventional three-dimensional display method of the parallax barrier method.

2 is a view for explaining a conventional lenticular three-dimensional display method.

3 is a diagram illustrating a method of constructing a 3D image through left / right image shifting according to an exemplary embodiment of the present invention.

4A is a diagram illustrating a method of superimposing a 3D right image on a specific region of a 2D image in a digital broadcasting and storage medium according to an exemplary embodiment of the present invention.

4B is a diagram illustrating a method of independently processing a 2D image and a 3D left / right image of a specific region in a digital broadcasting and storage medium according to an exemplary embodiment of the present invention.

5 is a diagram illustrating a method of processing a paste image by applying a mask according to an exemplary embodiment of the present invention.

FIG. 6 is a first flowchart illustrating a method of serving a 2D and 3D mixed image by inserting a 3D image into a specific region of the 2D image according to an exemplary embodiment of the present invention.

FIG. 7 is a second flowchart illustrating a method of serving a 2D and 3D mixed image by inserting a 3D image into a specific region of the 2D image according to an exemplary embodiment of the present invention.

Claims (18)

(a) allocating a specific region in which the 3D image is to be expressed in the 2D image and storing information including the position and size of the specific region; (b) pasting a left image of the 3D image to be expressed in a specific region of the 2D image by applying a mask at a reference point position of the specific region; (c) transmitting or storing the 2D image to which the left image of the 3D image is pasted to a receiving terminal through a multiplexing method; And (d) copying the transmitted or stored two-dimensional image to enlarge two times in the horizontal direction; and inserting the three-dimensional image into a specific region of the two-dimensional image to service the two-dimensional image. The method of claim 1, wherein step (b) The left image of the 3D image is divided into masks, and only the portion masked with "0" is copied without copying the portion masked with "1", and the 2D image and the 3D image are performed through an EOR operation applying a mask. And inserting a 3D image into a specific region of the 2D image to generate a left image of the 2D image. The method of claim 2, wherein step (b) When pasting the left image of the 3D image in a translucent form, masking the portions corresponding to “0” of the mask so that “0” and “1” are alternately expressed between neighboring masks. A method of servicing a 2D image by inserting a 3D image into a specific region of the 2D image. (a) allocating a specific region in which the 3D image is to be expressed in the 2D image and copying a part of the 2D image corresponding to the allocated specific region; (b) paste a left image of the 3D image to be expressed in a specific region of the 2D image by applying a mask at a reference point position of the specific region, and a right image of the 3D image to a part of the copied 2D image; Applying and pasting a mask; (c) separating the 2D image to which the left image of the 3D image is pasted and the part of the 2D image to which the right image of the 3D image is pasted together with the information including the position and size of the specific region; Transmitting or storing to a receiving terminal through a multiplexing scheme; (d) using the transmitted or stored 2D image as a left image of a 3D playback image, copying a left image of the 3D playback image to generate a right image of the 3D playback image, and Pasting a portion of the 2D image corresponding to the allocated specific region to a portion of the right image corresponding to the allocated specific region; And (e) arranging a left image of the 3D reproduction image and a right image of the 3D reproduction image by interleaving and interleaving the 3D reproduction image in a 3D image in a specific region of the 2D image. How to insert a two-dimensional mixed video service. The method of claim 4, wherein step (b) The left image of the 3D image is divided into masks, and only the portion masked with "0" is copied without copying the portion masked with "1", and the 2D image and the 3D image through an EOR operation applying a mask. And inserting a 3D image into a specific region of the 2D image to generate a left image of the image as a single image. The method of claim 4, wherein step (b) The right image of the 3D image is divided into masks, and only the part masked with "0" is copied without copying the part masked with "1", and the part of the 2D image and the 3 through the EOR operation to which the mask is applied. A method for servicing a 2D and 3D mixed image by inserting a 3D image into a specific region of a 2D image, wherein the 3D image is generated as a single image. The method of claim 4, wherein step (b) When pasting the left and right images of the 3D image in a translucent form, masking the portions corresponding to “0” of the mask so that “0” and “1” are alternately represented between neighboring masks. A method of serving a 2, 3D mixed image by inserting a 3D image into a specific region of a 2D image. (a) receiving a 2D image and a left image and a right image of a 3D image to be expressed in a specific region of the 2D image, and storing information including the position and size of the specific region; (b) separating the two-dimensional image and the left image of the three-dimensional image, and transmitting or storing the two-dimensional image and the left image of the three-dimensional image to the receiving terminal through a multiplexing method; (c) pasting a left image of the 3D image to be expressed in a specific region of the 2D image by applying a mask to a reference point position of the specific region; And (d) replicating the 2D image pasted to the left image of the 3D image and enlarging the image 2 times in the horizontal direction; inserting the 3D image into a specific area of the 2D image to include the 2D image. How to service video. The method of claim 8, wherein step (c) The left image of the 3D image is divided into masks, and only the portion masked with "0" is copied without copying the portion masked with "1", and the 2D image and the 3D image are performed through an EOR operation applying a mask. And inserting a 3D image into a specific region of the 2D image to generate a left image of the 2D image. The method of claim 9, wherein step (c) When pasting the left image of the 3D image in a translucent form, masking the portions corresponding to "0" of the mask so that "0" and "1" are alternately represented between neighboring masks. A method for servicing a 2D image by inserting a 3D image into a specific region of the 2D image. (a) receiving a 2D image and a left image and a right image of a 3D image to be expressed in a specific region of the 2D image, and storing information including the position and size of the specific region; (b) separating the left and right images of the 2D image and the 3D image and transmitting or storing the left and right images to the receiving terminal through the multiplexing method together with the information; (c) making the transmitted or stored 2D image into a 2D left image and pasting the left image of the 3D image by applying a mask to a reference point position of a specific region of the 2D left image; (d) pasting a right image of the 3D image by applying a mask to a reference point position of a specific region of the 2D right image from which the transmitted or stored 2D image is copied; And (e) interposing the two-dimensional left image and the two-dimensional right image through interleaving to generate a three-dimensional reproduced image; inserting the three-dimensional image into a specific region of the two-dimensional image; 2, 3D mixed video service. The method of claim 11, wherein step (c) The left image of the 3D image is divided into masks, and only the portion masked with "0" is copied without copying the portion masked with "1", and the 2D left image and the 3D through EOR operation applying a mask A method of servicing a 2, 3D mixed image by inserting a 3D image into a specific region of a 2D image, characterized by generating a left image of the image as a single image. The method of claim 11, wherein step (d) The right image of the 3D image is divided into masks, and only the portion masked with "0" is copied without copying the portion masked with "1", and the 2D right image and the 3D through EOR operation applying a mask A method of servicing a 2, 3D mixed image by inserting a 3D image into a specific region of a 2D image, wherein the right image of the image is generated as a single image. The method of claim 12, wherein step (c) When pasting the 3D image in a translucent form, the 2D image is masked so that a portion corresponding to “0” of the mask is alternately represented between “0” and “1” between neighboring masks. Method of serving a 2, 3D mixed image by inserting a 3D image in a specific region of the. The method of claim 13, wherein step (d) When pasting the 3D image in a translucent form, the 2D image is masked so that a portion corresponding to “0” of the mask is alternately represented between “0” and “1” between neighboring masks. Method of serving a 2, 3D mixed image by inserting a 3D image in a specific region of the. (a) allocating a specific region in which the 3D image is to be expressed in the 2D image, storing information including the position and size of the specific region, and copying a part of the 2D image corresponding to the allocated specific region ; (b) paste a left image of the 3D image to be expressed in a specific region of the 2D image by applying a mask at a reference point position of the specific region, and a right image of the 3D image to a part of the copied 2D image; Applying and pasting a mask; (c) separating the two-dimensional image to which the left image of the three-dimensional image is pasted and the part of the two-dimensional image to which the right image of the three-dimensional image is pasted and transmitting or storing them to the receiving terminal through a multiplexing method; (d) generating a 2D service image by copying the transmitted or stored 2D image and expanding the image 2 times in the horizontal direction; (e) using the transmitted or stored 2D image as a left image of a 3D playback image, copying a left image of the 3D playback image to generate a right image of the 3D playback image, and Pasting a portion of the 2D image corresponding to the allocated specific region to a portion of the right image corresponding to the allocated specific region; And (f) arranging the left image of the 3D reproduction image and the right image of the 3D reproduction image by interleaving and interleaving the 3D reproduction image in a 3D image in a specific region of the 2D image. How to insert a two-dimensional mixed video service. (a) receiving a 2D image and a left image and a right image of a 3D image to be expressed in a specific region of the 2D image, and storing information including the position and size of the specific region; (b) separating the left and right images of the 2D image and the 3D image and transmitting or storing the left and right images to the receiving terminal through the multiplexing method together with the information; (c) making the transmitted or stored 2D image into a 2D left image and pasting the left image of the 3D image by applying a mask to a reference point position of a specific region of the 2D left image; (d) pasting the right image of the 3D image by applying a mask to a reference point position of a specific region of the 2D right image from which the transmitted or stored 2D image is copied; and (e) generating a 2D service image by duplicating the 2D left image pasting the left image of the 3D image and enlarging it twice in the horizontal direction; (f) interposing the two-dimensional left image and the two-dimensional right image through interleaving to generate a three-dimensional reproduction image; and inserting the three-dimensional image into a specific region of the two-dimensional image. 2, 3D mixed video service. A computer-readable recording medium having recorded thereon a program for performing the method of any one of claims 1 to 17.

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