KR102229927B1 - Multi-Screen System, Picture Partition Server and Picture Processing Method thereof, Divided Picture Terminal and Multi-Screen Control Method thereof - Google Patents

Abstract

Disclosed are a multi-screen system, a video splitting server, a video splitting method thereof, a split video terminal, and a multi-screen control method. The multi-screen system according to the present invention comprises: an image splitting server for dividing a screen of an original image into a plurality of layouts and processing the divided images corresponding to each layout based on the original image; And corresponding to each layout divided by the video splitting server, receiving split images corresponding to each layout from the video splitting server, and setting the playback start time of each split video based on the waiting time on the network. And a plurality of divided image terminals for controlling the plurality of displays constituting the multi-screen to reproduce the divided image in synchronization based on the set playback start point. Here, each divided image terminal measures a waiting time on the network based on a master in a group of a plurality of divided image terminals, and controls each display to reproduce the divided image based on the measured waiting time.

Description

Multi-screen system, image segmentation server and image segmentation method thereof, segmented image terminal and multi-screen control method thereof {Multi-Screen System, Picture Partition Server and Picture Processing Method thereof, Divided Picture Terminal and Multi-Screen Control Method thereof}

The present invention relates to a multi-screen system, an image segmentation server, and an image segmentation method thereof, a segmented image terminal, and a multiscreen control method, and more particularly, to prevent deterioration of the image quality of segmented images, and to each segmented image. A multi-screen system, a video splitting server and its video splitting method, a split video terminal that can prevent distortion of the entire multi-screen image due to the difference in image processing speed and reduce the cost of configuring a multi-screen system. And a multi-screen control method.

Arranging a plurality of displays horizontally and vertically in a square shape and displaying a variety of different images on each display, or displaying one image in an enlarged form on the entire display is called a multi-screen. .

At this time, the form of displaying different images on each display of the multi-screen is only a matter of arranging a plurality of displays in a rectangular form and displaying the image on each display, so it is a separate problem. In the form of enlarged and displayed on the entire display, a separate device for controlling the image displayed on the multi-screen must be provided.

In general, a multi-screen image control apparatus converts the entire horizontal and vertical dimensions of an array of a plurality of displays into one multi-screen, and controls the image signal to be displayed on the converted multi-screen.

However, since such a multi-screen image control device enlarges and displays the original image according to the horizontal and vertical ratios composed of a plurality of displays, the overall image displayed on the multi-screen has a problem that the image quality is greatly degraded. have.

In order to solve such a problem, an image processing device corresponding to each of a plurality of displays constituting a multi-screen is provided, and each image processing device processes an image of a corresponding region of the original image and displays it on the display. However, since such a multi-screen system must have a plurality of image processing devices for image processing of a specific area in the original image, the cost of configuring the multi-screen system is greatly increased, and the cost of configuring the multi-screen system is increased. Since the speed of the image amplification process may be different, there is a problem that the entire image displayed on the multi-screen may not be synchronized and may be displayed distorted accordingly.

Unexamined Patent Publication No. 10-2006-0023832 (Publication date: 2006. 03. 15)

The present invention was devised to solve the above-described problem, and prevents deterioration of the image quality of divided images, and prevents distortion of the entire image of the multi-screen due to the difference in image processing speed between the divided images. It is an object of the present invention to provide a multi-screen system, an image segmentation server, and an image segmentation method thereof, a segmented image terminal, and a multiscreen control method, which can prevent and reduce the cost of configuring a multiscreen system.

The multi-screen system according to an embodiment of the present invention for achieving the above object divides the screen of an original image into a plurality of layouts, and processes the divided images corresponding to each layout based on the original image. server; And corresponding to each layout divided by the video splitting server, receiving split images corresponding to each layout from the video splitting server, and setting the playback start time of each split video based on the waiting time on the network. And a plurality of divided image terminals for controlling the plurality of displays constituting the multi-screen to reproduce the divided image in synchronization based on the set playback start point. Here, each divided image terminal measures a waiting time on the network based on a master in a group of a plurality of divided image terminals, and controls each display to reproduce the divided image based on the measured waiting time.

An image segmentation server that divides a screen of an original image into a plurality of layouts, and processes the segmented images corresponding to each layout based on the original image; Corresponds to each layout divided by the video division server, receives divided images corresponding to each layout from the video division server, and divides each by considering network latency for other layouts based on a random layout A plurality of divided video terminals for setting a start point of video playback; And a plurality of displays arranged on the basis of a layout divided by the image segmentation server and for reproducing a corresponding segmented image according to a playback start point set by each segmented image terminal. Here, each divided image terminal measures a waiting time based on a master in a group of a plurality of divided image terminals, and responds so that each of the displays synchronizes and reproduces the divided image based on the measured waiting time. Set the playback start point of the segmented video to be played.

An image splitting server according to an embodiment of the present invention for achieving the above object, divides a screen of an original image into a plurality of layouts, and processes the split image corresponding to each layout based on the original image. Installment; A terminal setting unit for setting a divided image terminal corresponding to each layout divided by the layout dividing unit; And a divided image transmission unit for transmitting a divided image having a layout corresponding to each of the divided image terminals set by the terminal setting unit.

The layout divider divides the original image into integer x integer layouts.

The terminal setting unit sets a divided image terminal corresponding to a position of an original image of each layout divided by the layout dividing unit.

A split video terminal according to an embodiment of the present invention for achieving the above object is a split video terminal configured in plural and receiving split images corresponding to respective layouts divided by an image splitting server. A waiting time measuring unit for measuring a waiting time; A start time setting unit for setting a playback start time of the divided image received from the video segmentation server based on the waiting time measured by the waiting time measurement unit; And an image reproduction control unit for controlling the divided image to be reproduced on a corresponding display based on the reproduction start time set by the start time setting unit.

The above-described divided video terminal includes: an information transmission unit for transmitting information of the waiting time measured by the waiting time measuring unit to a master in a group; And a reproducing command receiving unit configured to receive a reproducing command from the master in response to information of the waiting time transmitted to the master by the information transmitting unit. In this case, the start time setting unit sets the time point at which the play command is received by the play command receiving unit as the play start time point.

The above-described divided image terminal may further include an information receiving unit configured to receive information on the waiting time from the remaining slaves of the plurality of divided image terminals, when set as the master among the plurality of divided image terminals. In this case, the start time setting unit sets a playback start time for each based on the waiting time measured by the waiting time measuring unit and the waiting time information received from each slave through the information receiving unit.

The video playback control unit controls the screen set on each display to be played back before the playback start time set by the start time setting unit.

An image segmentation method according to an embodiment of the present invention for achieving the above object, in the image segmentation method performed by the image segmentation server, divides the screen of the original image into a plurality of layouts, and corresponds to each layout. Image processing the divided image based on the original image; Setting a divided video terminal corresponding to each layout divided by the layout division step; And transmitting a divided image having a layout corresponding to each of the divided image terminals set by the divided image terminal setting step. It characterized in that it comprises a.

In the layout dividing step, the original image is divided into integer x integer layouts.

In the split-video terminal setting step, the split-video terminal is set in correspondence with the position of the original image of each layout divided by the layout splitting step.

A multi-screen control method according to an embodiment of the present invention for achieving the above object is a multi-screen control by a plurality of divided image terminals constituting a multi-screen by receiving divided images corresponding to each layout from an image segmentation server. A method comprising: measuring a waiting time on a network; Setting a playback start time of the divided image received from the image segmentation server based on the waiting time measured by the waiting time measuring step; And controlling the divided image to be reproduced on a corresponding display based on the reproduction start time set by the reproduction start time setting step.

The above-described multi-screen control method includes: transmitting information on the waiting time measured by the waiting time measuring step to a master in a group; And receiving a reproducing command from the master in response to the waiting time information transmitted to the master by the waiting time information transmitting step. In this case, the playback start point setting step sets the point at which the playback command is received by the playback command receiving step as the playback start point.

The above-described multi-screen control method may further include receiving information on the waiting time from the remaining slaves of the plurality of divided image terminals, if set as a master among the plurality of divided image terminals. In this case, the playback start time setting step sets the playback start time points for each based on the waiting time information received from each slave through the waiting time measured by the waiting time measuring step and the waiting time information receiving step.

In the split image playback control step, the screen set on each display corresponding to the playback start point set by the playback start point setting step is controlled to be played back.

According to the present invention, since the original image is divided into a plurality of layouts and the divided image corresponding to each layout is displayed on the display, the overall image of the multi-screen is improved.

In addition, according to the present invention, since the image segmentation server uniformly divides the original image, processes the segmented image, and displays it on the corresponding display, it is displayed on the multi-screen due to the difference in the image processing speed of each segmented image. It is possible to prevent the entire image being distorted.

In addition, according to the present invention, since the divided image terminal corresponding to each display only needs to remove the difference in the waiting time on the network that occurs in each divided image, a complicated hardware configuration is not required. Therefore, a multi-screen system is required. It is possible to greatly reduce the overall cost of construction.

1 is a diagram schematically showing a multi-screen system according to an embodiment of the present invention.
2 is a diagram illustrating an example in which an original image is divided into a plurality of layouts.
3 is a diagram illustrating an example of setting a divided video terminal corresponding to each layout.
4 is a diagram showing an example in which each divided image terminal outputs a divided image to a display constituting a multi-screen.
5 is a diagram schematically showing the configuration of an image splitting server according to an embodiment of the present invention.
6 is a diagram schematically showing the configuration of a split image terminal according to an embodiment of the present invention.
7 is a flowchart showing an image segmentation method according to an embodiment of the present invention.
8 is a flowchart illustrating a multi-screen control method according to an embodiment of the present invention.

Hereinafter, a multi-screen system, an image segmentation server, an image segmentation method thereof, a segmented image terminal, and a multiscreen control method according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram schematically showing a multi-screen system according to an embodiment of the present invention.

Referring to FIG. 1, a multi-screen system according to an embodiment of the present invention includes an image segmentation server 100, a plurality of divided image terminals 200, and a plurality of displays 20. Here, the image segmentation server 100 and each segmented image terminal 200 are connected to each other through the network 10, and the segmented image terminal 200 and the display 20 are connected to each other in a one-to-one correspondence. In addition, the plurality of displays 20 are arranged in the horizontal and vertical directions to constitute a multi-screen. In this case, it is preferable that the plurality of displays 200 are arranged in close contact with each other.

The image segmentation server 100 divides the screen of the original image into a plurality of layouts, and processes the divided images corresponding to each layout based on the original image. At this time, the image segmentation server 100 divides the screen of the original image into a plurality of layouts in which the horizontal and vertical ratio is an integer x integer, and the divided images corresponding to each layout can be processed in proportion to the number of layouts. have. In this case, it is preferable that the image segmentation server 100 divides the original image so that the size of each segmented layout is the same. For example, as shown in FIG. 2, the image segmentation server 100 can divide the size of the original image into four layouts by dividing the size of the original image in horizontal and vertical directions, respectively, and divide the image corresponding to each layout into four. You can process the image by boat. At this time, the image segmentation server 100 divides the original image into a plurality of layouts based on the number of pixels in the horizontal x vertical direction, and processes the image so that the divided images corresponding to each of the divided layouts have a size proportional to the original image. can do. For example, when the number of pixels of the original image is 400 x 300 in the horizontal x vertical direction, the image segmentation server 100 divides the original image in half in the horizontal x vertical direction and divides the original image into four layouts with 200 x 150 pixels. The image can be processed four times so that the divided image corresponding to each layout has the number of pixels of 400 x 300. That is, the image segmentation server 100 may process an image so that a color represented by one pixel in the segmented image is expressed twice in the horizontal and vertical directions, respectively. The number of divisions of the layout and the image processing ratio of the divided images described herein are only examples to aid understanding, and are not limited to the number described.

The plurality of divided image terminals 200 correspond to a plurality of layouts divided by the image segmentation server 100 on a one-to-one basis, and receive segmented images corresponding to each layout from the image segmentation server 100. For example, as shown in FIG. 3, when the original image is divided into four layouts, a plurality of divided image terminals 200 are provided with four to correspond to each of the divided layouts of the original image on a one-to-one basis. Split images corresponding to respective layouts are received from the server 100 through the network 10.

At this time, since each of the plurality of divided image terminals 200 receives the divided image from the image segmentation server 100, a time difference may occur between each of the divided image terminals 200 on the network. As described above, the time difference between the divided images received by each of the divided image terminals 200 on the network is referred to as the network latency. Such network latency may cause distorted images displayed on the multi-screen.

In order to solve such a problem, the plurality of divided image terminals 200 set any one divided image terminal 200 in the corresponding group as a master, and set the remaining divided image terminals 200 in the corresponding group. Set as slave. At this time, the method of setting an arbitrary split video terminal 200 as a master among a plurality of split video terminals 200 may use a known communication technology for setting a master between a plurality of communication terminals, and description thereof here. Is omitted.

In this case, the plurality of split video terminals 200 may measure the waiting time on the network based on the split video terminal 200 set as a master. For example, the slave split video terminal and the master split video terminal periodically measure the transmission time on the network to the video splitting server 100, and compare the transmission time on the network between the master split video terminal and the slave split video terminal. , The network latency of each slave split video terminal can be calculated based on the master split video terminal. However, the method of measuring the latency on the network described herein is only an example to aid understanding, and the network latency may be calculated using various methods.

The plurality of divided image terminals 200 set the playback start time of each divided image in consideration of the network waiting time for other layouts based on an arbitrary layout. In this case, the plurality of divided image terminals 200 may set the playback start time of each divided image in consideration of the network waiting time for other slaves based on the layout corresponding to the master. In this case, the plurality of divided image terminals 200 sets each divided image reproduction time point so that the corresponding displays 20 synchronize with each other to reproduce the divided image. For example, among a plurality of split video terminals 200, the split video terminal 200 that first receives the split video corresponding to each layout from the video split server 100 is set as the master, and slave 1, slave 2 Assuming that the network wait times of, and slave 3 are 0.01 seconds, 0.03 seconds, and 0.02 seconds, the master sets the time 0.03 seconds after receiving the divided image as the playback start time, and the slave 1 is the divided image. The time 0.02 seconds after receiving the video is set as the playback start time, Slave 2 sets the time when the split video is received as the playback start time, and Slave 3 plays the time 0.01 seconds after the time when the split video is received. It can be set as the starting point. However, the method of setting the playback start point described herein is an example to aid understanding, and is not limited to the described method. In addition, the plurality of divided image terminals 200 may set different playback start points according to whether the divided image data is received from the image segmentation server 100 as a stream or in a packet unit.

Meanwhile, the display 20 is arranged based on a layout divided by the image segmentation server 100 to constitute a multi-screen. That is, the display 20 is arranged in the same manner as the layout divided by the image division server 100 to constitute a multi-screen. For example, if the layout divided by the image splitting server 100 is in the form of 2 x 2, the display 20 is arranged in the form of 2 x 2 horizontally x vertically to form a multi-screen. In this case, each divided image terminal 200 is matched one-to-one with the display 20 corresponding to the position of the layout for the original image, and each display 20 synchronizes the divided image based on the playback start point. Control to play. Here, the meaning of synchronizing and reproducing the divided image means that each display 20 matches the same time point at which the divided image is reproduced. For example, each divided image terminal 200 is matched one-to-one with the display 20 corresponding to each of the layouts divided in the form of 2 x 2 for the original image, as shown in FIG. Based on the starting point of reproduction, the divided images are controlled to be synchronized and reproduced on each display 20.

Accordingly, since the multi-screen reproduces the image according to the reproduction time of the divided images of each display, the image can be reproduced without distortion in the entire image.

In addition, in the multi-screen, since each display reproduces the image-processed divided image in proportion to the size of the original image, the image quality of the enlarged entire image does not deteriorate at all.

In addition, since each divided video terminal can measure the waiting time between each other by a software method and set the playback start point accordingly, the cost of configuring a multi-screen can be reduced compared to the conventional image processing by hardware. There will be.

5 is a diagram schematically showing the configuration of an image splitting server according to an embodiment of the present invention. The video splitting server according to the embodiment of the present invention can be used as the video splitting server 100 of the multi-screen system shown in FIG. 1, and thus the same reference numbers are given.

Referring to FIG. 5, the image segmentation server 100 according to an embodiment of the present invention may include a layout segmentation unit 110, a terminal setting unit 120, and a segmented image transmission unit 130.

The layout dividing unit 110 divides the screen of the original image into a plurality of layouts, and processes the divided images corresponding to each layout based on the original image. At this time, the layout dividing unit 110 divides the screen of the original image into a plurality of layouts in which the horizontal and vertical ratio is an integer x integer, and the divided images corresponding to each layout can be processed in proportion to the number of layouts. have. In this case, it is preferable that the layout dividing unit 110 divides the original image so that the size of each divided layout is the same. In addition, the layout dividing unit 110 divides the original image into a plurality of layouts based on the number of pixels in the horizontal x vertical direction, and processes the divided images corresponding to each of the divided layouts to have a size proportional to the original image. can do.

The terminal setting unit 120 sets the divided image terminal 200 corresponding to each layout divided by the layout dividing unit 110. In this case, the plurality of displays 20 are arranged based on the arrangement type of the layout to constitute a multi-screen, and each display 20 is matched with the divided image terminal 200 on a one-to-one basis. In this case, the terminal setting unit 120 sets the divided image terminal 200 according to the position of the layout for the original image. For example, when the position of the divided layout with respect to the original image is a position of 1 x 2, the terminal setting unit 120 corresponds to the corresponding layout, and the terminal setting unit 120 is 1 x 2 among a plurality of displays 20 constituting a multi-screen. The split image terminal 200 corresponding to the display at the position of is set.

The segmented image transmission unit 130 transmits segmented images of a corresponding layout to each segmented image terminal 200 set by the terminal setting unit 120. For example, the divided image transmission unit 130 divides a layout corresponding to a position of 1×1 with respect to the original image in the divided image terminal 200 corresponding to a 1×1 display among a plurality of displays constituting a multi-screen. Transmit the video.

6 is a diagram schematically showing the configuration of a split image terminal according to an embodiment of the present invention. The split video terminal according to the embodiment of the present invention can be used as the split video terminal 200 of the multi-screen system shown in FIG. 1, and thus the same reference numbers are given. At this time, the divided image terminal 200 corresponds to the plurality of displays 20 constituting the multi-screen, respectively, on a one-to-one basis, and controls to receive the divided image from the image segmentation server 100 and reproduce it on the corresponding display 20. .

6, the divided video terminal 200 according to an embodiment of the present invention includes a waiting time measuring unit 210, a start time setting unit 220, an image reproduction control unit 230, an information transmission unit 240, It may include a reproduction command receiving unit 250 and an information receiving unit 260.

The waiting time measuring unit 210 measures the waiting time on the network. At this time, the waiting time measuring unit 210 periodically measures the transmission time between the image segmentation server 100 and the segmented image terminal 200 as a waiting time on the network, and measures the measured transmission time as the segmented image terminal 200 within the group. ), you can calculate the waiting time within the group.

The start time setting unit 220 sets a playback start time of the divided image received from the image segmentation server 100 based on the waiting time on the network measured by the waiting time measurement unit 210. At this time, the start point setting unit 220 determines whether to play the divided image on the corresponding display 20 after a certain amount of time after the divided image terminal 200 receives the divided image from the image segmentation server 100. It can be set as the playback start point. In this case, the start time setting unit 220 is divided into the display 20 by synchronizing each of the divided image terminals 200 in the group at the same time based on the waiting time measured by the waiting time measuring unit 210 Set the playback start point so that the video can be played.

The image reproduction control unit 230 controls the divided image to be reproduced on the corresponding display 20 based on the reproduction start time set by the start time setting unit 220. At this time, after receiving the divided image from the video segmentation server 100, the image reproduction control unit 230 controls to play the divided image on the corresponding display 20 after the playback start time set by the start time setting unit 220. can do. In this case, the image reproduction control unit 230 may control the basic screen set in each of the displays 20 to be played back before the reproduction start time set by the start time setting unit 220.

The information transmission unit 240 may transmit the information of the waiting time on the network measured by the waiting time measuring unit 210 to the divided video terminal 200 set as a master in the group. That is, the information transmission unit 240 transmits the information of the waiting time on the network measured by the waiting time measuring unit 210 to the divided video terminal 200 set as a master. In this case, the split video terminal 200 set as the master compares the network latency information received from the other split video terminals 200 in the group with the latency information on its own network, The waiting time in the group for the divided image terminals 200 may be calculated.

The reproducing command receiving unit 250 may receive a reproducing command from the master in response to information on the waiting time on the network transmitted to the master by the information transmitting unit 240. That is, if the master calculates the waiting time in the group for each slave based on the information of the waiting time on the network transmitted by the information transmission unit 240 to the master, the master will be based on the waiting time in the group for each slave. Accordingly, the playback command is transmitted to each slave, and the playback command receiving unit 250 may receive a playback command from the master based on the waiting time in the group for itself. In this case, the start time setting unit 220 may control a split image to be played on the display 20 by setting a time point at which the play command is received through the play command receiving unit 250 as the play start time point. However, the present invention is not limited thereto, and the start point setting unit 220 may be implemented to set a playback start point for itself based on a playback command received from the master.

The information receiving unit 260 receives information on the waiting time on the network from other divided image terminals in the group when it is set as a master among a plurality of divided image terminals in a group constituting a multi-screen. In this case, the start time setting unit 220 starts playback for each based on the waiting time measured by the waiting time measuring unit 210 and the waiting time information received from each slave through the information receiving unit 260 You can set the viewpoint. At this time, the start time setting unit 220 calculates the difference in the waiting time with each other divided video terminals in the group based on the waiting time on the network as a reference (0), and based on the difference in the calculated waiting time. Thus, you can set the playback start point for each.

7 is a flowchart showing an image segmentation method according to an embodiment of the present invention. The image segmentation method according to the embodiment of the present invention may be performed by the image segmentation server 100 shown in FIG. 5.

1 to 7, the image segmentation server 100 divides a screen of an original image into a plurality of layouts, and processes a segmented image corresponding to each layout based on the original image (S110). At this time, the image segmentation server 100 divides the screen of the original image into a plurality of layouts in which the horizontal and vertical ratio is an integer x integer, and the divided images corresponding to each layout can be processed in proportion to the number of layouts. have. In this case, the image segmentation server 100 may divide the original image so that the size of each segmented layout is the same. In addition, the image segmentation server 100 divides the original image into a plurality of layouts based on the number of pixels in the horizontal x vertical direction, and processes the image so that the divided images corresponding to each of the divided layouts have a size proportional to the original image. can do.

The image segmentation server 100 sets the segmented image terminal 200 corresponding to each segmented layout (S120). In this case, the plurality of displays 20 are arranged based on the arrangement type of the layout to constitute a multi-screen, and each display 20 is matched with the divided image terminal 200 on a one-to-one basis. In this case, the image segmentation server 100 sets the segmented image terminal 200 corresponding to the position of the layout for the original image.

The image segmentation server 100 transmits segmented images having a layout corresponding to each segmented image terminal 200 (S130). For example, the image segmentation server 100 divides a layout corresponding to a position of 1×1 with respect to the original image in the segmented image terminal 200 corresponding to a 1×1 display among a plurality of displays constituting a multi-screen. Transmit the video.

8 is a flowchart illustrating a multi-screen control method according to an embodiment of the present invention. The multi-screen control method according to an embodiment of the present invention may be performed by the split image terminal 200 shown in FIG. 6.

1 to 6, and 8, the divided image terminal 200 determines whether it is a master or a slave within a group of a plurality of divided image terminals respectively corresponding to the display 20 constituting a multi-screen. Set (S210). In this case, a method of setting a master or a slave may use a known method, and detailed description thereof will be omitted here.

Each of the divided video terminals 200 periodically measures the waiting time on the network (S220). At this time, each divided image terminal 200 may measure a transmission time to the image segmentation server 100 and set the measured transmission time as a standby time on the network.

The split video terminal 200 set as the master receives information on the waiting time on each network from other split video terminals in the group (S230).

The split video terminal 200 set as the master compares the information of the waiting time on the network received from each split video terminal 200 with the information of its own waiting scene to set the playback start time for each split video terminal. Yes (S240).

The divided image terminal 200 set as the master controls the divided image to be reproduced on the corresponding display 20 based on the playback start time set for itself (S250). At this time, the divided image terminal 200 set as the master may transmit a playback command to each of the divided image terminals based on a playback start time set for each of the other divided image terminals in the group. In this case, the divided image terminal 200 set as the master issues a playback command so that each of the other divided image terminals 200 reproduces the divided image at the same time as when the divided image is reproduced on the display 20 corresponding to it. send.

On the other hand, the divided video terminal 200 set as a slave transmits the information of the waiting time on the network, which is periodically measured, to the master (S260).

In addition, the divided video terminal 200 set as a slave receives a playback command from the master in response to the information of the waiting time on the network transmitted to the master (S270).

Each of the divided image terminals 200 corresponding to the slaves sets the time when the reproduction command is received as the reproduction start time, and may control the corresponding display 20 so that the divided image is reproduced on the corresponding display 20 ( S280). At this time, the time point when the divided video terminal 200 corresponding to each slave receives a playback command from the master is at the same time point.

Accordingly, the divided image terminal synchronizes the time point at which the divided image is reproduced so that distortion does not occur in the entire image reproduced on the multi-screen.

The above-described image segmentation method or multi-screen control method may be implemented as a computer program, and may be executed by an electronic device such as a server, a computer, and a terminal. Further, a computer program that executes the above-described image segmentation method or multi-screen control method is recorded on a recording medium such as a memory, USB, or CD, and may be read by a computer.

Claims (17)

An image segmentation server that divides a screen of an original image into a plurality of layouts, and processes the segmented image corresponding to each layout based on the original image; And
Corresponding to each layout divided by the video splitting server, receiving split images corresponding to each layout from the video splitting server, and determining the playback start time of each split video based on the waiting time on the network. A plurality of divided image terminals configured to control the plurality of displays constituting the multi-screen to reproduce the divided image in synchronization based on the set playback start time point;
Including,
Each of the divided image terminals measures a waiting time on the network based on a master in the group of the plurality of divided image terminals, and controls each of the displays to reproduce the divided image based on the measured waiting time. Multi-screen system, characterized in that. delete delete delete In a divided image terminal consisting of a plurality and receiving divided images corresponding to each layout divided by the image segmentation server,
A waiting time measuring unit for measuring a waiting time on the network;
A start point setting unit for setting a playback start point of the segmented image received from the image segmentation server based on the waiting time measured by the wait time measuring unit; And
An image reproduction control unit for controlling a divided image to be reproduced on a corresponding display based on a reproduction start time set by the start time setting unit;
Split video terminal comprising a. The method of claim 5,
An information transmission unit for transmitting information on the waiting time measured by the waiting time measuring unit to a master in a group; And
A reproducing command receiving unit for receiving a reproducing command from the master in response to information on the waiting time transmitted to the master by the information transmitting unit;
It further includes,
And the start time setting unit sets a time point at which a play command is received by the play command receiving unit as a play start time point. The method of claim 5,
An information receiving unit configured to receive information of a waiting time from the remaining slaves of the plurality of divided video terminals when set as a master among the plurality of divided video terminals;
It further includes,
The start time setting unit is characterized in that for setting a playback start time point for each based on the waiting time measured by the waiting time measuring unit and the waiting time information received from each of the slaves through the information receiving unit. Video terminal. The method of claim 5,
The video playback control unit,
And controlling a screen set on each of the displays to be played back before a playback start time set by the start time setting unit. delete delete delete In the multi-screen control method using a plurality of divided image terminals constituting a multi-screen by receiving divided images corresponding to each layout from an image segmentation server,
Measuring a waiting time on the network;
Setting a playback start time of the divided image received from the image segmentation server based on the waiting time measured by the waiting time measuring step; And
Controlling the split image to be played back on a corresponding display based on the playback start point set by the playback start point setting step;
Multi-screen control method comprising a. The method of claim 12,
Transmitting information on the waiting time measured by the waiting time measuring step to a master in the group; And
Receiving a play command from the master in response to the waiting time information transmitted to the master by the waiting time information transmitting step;
It further includes,
The multi-screen control method, characterized in that in the step of setting a playback start point, a point in time at which a playback command is received by the playback command receiving step is set as a playback start point. The method of claim 12,
Receiving information of a waiting time from the remaining slaves of the plurality of divided video terminals when the plurality of divided video terminals are set as the master;
It further includes,
The reproducing start time setting step is to set a reproducing start time for each based on the waiting time measured by the waiting time measuring step and the waiting time information received from each of the slaves through the waiting time information receiving step. Multi-screen control method, characterized in that. The method of claim 12,
The split image playback control step,
And controlling the corresponding screens set on the respective displays to be played back before the playback start time set by the playback start point setting step. A computer program stored in a computer-readable recording medium to execute the image segmentation method or the multi-screen control method according to any one of claims 12 to 15. A recording medium that records a computer program that executes the image segmentation method or the multi-screen control method according to any one of claims 12 to 15, and is readable by a computer.

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