KR20160082368A - Contents Synchronization Method and System in Network-based Multi Display - Google Patents

Abstract

Provided are a content synchronization method and a system thereof in a network-based multi display. An image expression system according to an embodiment of the present invention includes: an MVD where a number of VDs are arranged; a VTS which transmits images divided from one content to each VD, and transmits a time synchronization video signal (TSVS) to the VDs at video synchronization and calibration time (VSCT); and a VSC which generates SSs of the VDs on the basis of TSVS screens displayed on the VDs, and delivers the SSs to the VDs. By the same, it is possible to express an accurately synchronized image even among equipment of different performances.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a content synchronization method,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to multi-display, and more particularly, to a method for synchronizing contents in a network-based multi-display.

When a plurality of video information is transmitted to a plurality of video display devices and the display start time is different in each of the video signal receiving and displaying devices when they are displayed on one large screen, There is a case where the screen is not normally displayed because the motions are not matched. In particular, due to the accuracy of the time information in the equipment and the time information error, it is difficult for the operator to configure the desired synchronized full screen.

Most of the conventional equipment transmits the information related to the image presentation to the image receiving equipment through a TS (Transport Stream) frame or the like. In this case, regardless of multiple image presentation, one video signal includes time information expressed in the display device.

On the other hand, there is a device type that receives time information from the network and displays the received video signal according to time while the device corrects the time. However, if the performance is different from other devices or the function of parts processing time in the device Accurate synchronized image presentation between a plurality of different display devices is difficult

Therefore, it is required to search for a method of precisely synchronized image display between devices having different performances.

SUMMARY OF THE INVENTION The present invention is conceived to solve the problems as described above, and it is an object of the present invention to provide a method of synchronizing contents in a network-based multi-display for precisely synchronized image display between devices having different performances, .

According to an aspect of the present invention, there is provided an image display system including: an MVD (Multi Video Display) having a plurality of VDs arranged therein; A VTS (Video Transmission System) for transmitting TSVS (Time Synchronization Video Signal) to the VDs when video segments divided from one content are transmitted to each of the VDs and a Video Synchronization Calibration Time (VSCT) is reached; And a VSC (Video Synchronization Controller) for generating SS (Sync Signals) of the VDs based on the TSVS images displayed on the VDs and delivering them to the VDs.

The VSC may include a camera for photographing the TSVS screen at a frame rate faster than the display of the VDs.

Also, the TSVS is an image signal in which an index number indicating a frame sequence number appears at a specific position, and the VSC calculates OOS (Out of Synchronization) of the VDs with reference to index numbers of a TSVS picture taken by the camera And a VSD (Visual Sync Detection) module for generating the SSs of the VDs based on the calculated OOS.

The VSCT may be a time at which content is first transmitted from the VTS to the MVD or a time at which playback of one content is completed and playback of the next content starts.

In addition, the VDs transmit their own specification information to the VSD module, and the VSD module can refer to specification information of the VDs when generating SS (Sync Signals) of the VDs.

Meanwhile, according to another embodiment of the present invention, a video presentation synchronization method is a method of synchronizing a plurality of VDs constituting a Multi-Video Display (MVD) with a Time Synchronization Video (TSVS) Signal; Generating SS (Sync Signals) of the VDs using VTS screens displayed in the VDs; And transmitting the SS (Sync Signals) to the VDs.

INDUSTRIAL APPLICABILITY As described above, according to the embodiments of the present invention, accurately synchronized image display can be performed between devices having different performances. Particularly, according to the embodiments of the present invention, there is an advantage that synchronization can be performed without changing the HW structure of the existing image display device.

1 illustrates a multi-display system in accordance with an embodiment of the present invention,
2 is a diagram provided in the description of a multi-display system synchronization process,
3 is a detailed block diagram of the VDs constituting the MVD,
4 is a detailed block diagram of the VSC,
5 is a detailed block diagram of the VTS.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1. Multi-display system

1 is a diagram illustrating a multi-display system according to an embodiment of the present invention. A multi display system according to an embodiment of the present invention includes an MVD (Multi Video Display) apparatus including a plurality of VDs (Video Displays) VD1, VD2, ..., VD8 having various sizes, (100). ≪ / RTI >

Furthermore, the multi-display system according to the embodiment of the present invention pre- or periodically performs calibration for synchronization of images displayed on VDs VD1, VD2, ..., VD8.

A multi-display system according to an embodiment of the present invention that performs the above-described functions is provided with an MVD 100, a VSC (Video Synchronization Controller) 200, and a VTS (Video Transmission System) As shown in FIG.

The MVD 100 is a display formed by combining eight VDs (VD1, VD2, ..., VD8), and the specifications including the sizes of the VDs VD1, VD2, ..., VD8 may be different . Also, in FIG. 1, the number of image displays in the MVD 100 is illustrative, and there is no limitation on the number.

VDs VD1, VD2, ..., and VD8 are devices that decode and display a video signal received from the VTS 300 through the network. The VDs VD1, VD2, ..., and VD8 set the current time information sent from the VTS 300 using NTP (Network Time Protocol).

Also, the VDs VD1, VD2, ..., VD8 transmit their specification information to the VSC 200 and the VTS 300 via the network. Specification / performance information includes CPU performance information, video processing performance information, and the like.

The VSC 200 is installed at a distance D from the MVD 100. [ The VSC 200 photographs a screen displayed on the MVD 100 at a wide angle of view V that is wider than the viewing angle of the person at the installed position.

The VTS 300 divides one content into a plurality of images according to the layout of the VDs VD1, VD2, ..., VD8 constituting the MVD 100, and outputs the VDs VD1, VD2, ..., VD8.

There is no limitation on the standard of the image transmitted from the VTS 300 to the VDs VD1, VD2, ..., VD8. MJPEG, MPEG2-TS, H.264, H.265, MP4, as well as images of other standards can be transmitted.

2. Multi-Display Synchronization

Hereinafter, a method for displaying a plurality of images constituting one content to be displayed through the MVD 100 in synchronization with VDs VD1, VD2, ..., VD8 will be described.

For synchronization, the VTS 300 transmits Time Synchronization Video Signal (TSVS) to VDs (VD1, VD2, ..., VD8) in VSCT (Video Synchronization Calibration Time). At this time, the TSVSs transmitted to the VDs VD1, VD2, ..., VD8 are all the same.

The VSCT can be implemented at the time of starting the content transmission from the VTS 300 to the MVD 100 for the first time, the time at which the guidance screen is transmitted before the playback of one content is completed, and the next content playback is started.

The TSVS screen is a two-second-long video screen with index numbers displayed in the upper right corner. If the number of frames per second is F, the index number is composed of -F to + F, and the total number of index numbers is 2F.

If the VDs VD1, VD2, ..., VD8 constituting the MVD 100 are not synchronized with each other, the TSVSs (VD1, VD2, ..., VD8) The index numbers on the screen will be different.

The VSC 200 captures the TSVS images displayed on the VDs VD1, VD2, ..., VD8 and calculates OOS (Out of Synchronization). Specifically, the VSC 200 finds the OOS by index number expansion based on the TSVS index number 0 on the photographed TSVS screen.

Then, the VSC 200 generates VSC-SS (VSC's Sync Signals) for each of the VDs VD1, VD2, ..., and VD8 from the OSS and transmits them through the network. ..., VD8 adjust the video reproduction / presentation timing in accordance with the received VSC-SS.

3. VD ( Video Display )

3 is a detailed block diagram of the VDs VD1, VD2, ..., VD8 constituting the MVD 100. In FIG. Since the configurations of VDs VD1, VD2, ..., VD8 are all the same, only one VD is shown in FIG. 3 as "100-n".

3, the VD 100-n includes a Video Display Sync Agent (VDSA) 110, a Network Interface Card (NIC) 120, a decoding unit 130, an NTP processing unit 140, (150).

The NIC 120 communicates with the VSC 200 via the network and receives video signals from the VTS 300. The decoding unit 130 decodes the video signal received by the NIC 120 and the video display unit 150 displays the decoded video in the decoding unit 130. [

In this process, the VDSA 110 corrects the image reproduction / display timing according to the VSC-SS received from the VSC 200 so that the VSC 110 synchronizes with the images reproduced / displayed on the other VDs.

Further, the VDSA 110 transmits the specification information of VD (100-n) to the VSC 200 via the network so that the VSC 200 can refer to the generation of the VSC-SS. The NTP processing unit 140 sets the current time information to be sent from the VTS 300 using NTP.

4. VSC ( Video Synchronization Controller )

4 is a detailed block diagram of the VSC 200. 4, the VSC 200 includes a camera 210, an NTP processing unit 220, a VSD (Visual Sync Detection) module 230, and a NIC 240.

NIC 240 communicates with VDs VD1, VD2, ..., VD8 and VTS 300 constituting MVD 100 via a network. The NTP processing unit 220 sets the current time information to be sent from the VTS 300 using NTP.

The camera 210 captures TSVS images when they are displayed on the VDs VD1, VD2, ..., VD8. The photographing speed of the camera 210 is preferably 600 f / s, which is ten times faster than the frame rate of the TSVS screen. However, it does not necessarily have to be implemented at 600f / s, and if it is faster than the frame rate of the TSVS screen, it is not excluded to implement it at a different rate.

The VSD module 230 calculates the OOS for each of the VDs VD1, VD2, ..., VD8 by referring to the TSVS screen photographed by the camera 210, ..., VD8, respectively.

The generated VSC-SS is transferred to the corresponding VDs (VD1, VD2, ..., VD8) through the network.

5. VTS ( Video Transmission System )

5 is a detailed block diagram of the VTS 300. As shown in FIG. 5, the VTS 300 includes an NTP processor 310, a NIC 320, a VTSS (Video Transmission Sync Service) module 330, and an image transmitter 340.

NIC 320 communicates with VDs VD1, VD2, ..., VD8 and VSC 200 constituting MVD 100 via a network. The NTP processor 310 transmits current time information to the VDs VD1, VD2, ..., VD8 and the VSC 200 using NTP.

When VTSS module 330 becomes VSCT, TSVS is transmitted to VDs VD1, VD2, ..., VD8. The video transmission unit 340 divides one content into a plurality of images according to the layout of the VDs VD1, VD2, ..., VD8 constituting the MVD 100, and outputs the VDs VD1, VD2 , ..., VD8.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the present invention.

100: MVD (Multi Video Display)
VD1, VD2, ..., VD8: VD (Video Display)
200: Video Synchronization Controller (VSC)
300: Video Transmission System (VTS)

Claims (6)

An MVD (Multi Video Display) in which a plurality of video displays (VD) are arranged;
A VTS (Video Transmission System) for transmitting TSVS (Time Synchronization Video Signal) to the VDs when video segments divided from one content are transmitted to each of the VDs and a Video Synchronization Calibration Time (VSCT) is reached; And
And a VSC (Video Synchronization Controller) for generating SS (Sync Signals) of the VDs based on the TSVS images displayed on the VDs and delivering the SSs to the VDs.
The method according to claim 1,
The VSC,
And a camera for photographing the TSVS screen at a frame rate faster than the expression of the VDs.
The method of claim 2,
The TSVS,
An index number indicating a frame sequence number is a video signal appearing at a specific position,
The VSC,
A VSD (Visual Sync Detection) module for calculating OOS (Out of Synchronization) of the VDs by referring to the index numbers of the TSVS screen photographed by the camera, and generating SSs of the VDs based on the calculated OOSs Wherein the video presentation system comprises:
The method of claim 3,
In the VSCT,
Wherein the video presentation system is one in which content is first transmitted from the VTS to the MVD, or one content is played back before the next content is played back.
The method of claim 3,
The VD sends its own specification information to the VSD module,
The VSD module includes:
And when referring to the specification information of the VDs when generating SS (Sync Signals) of the VDs.
Transmitting a Time Synchronization Video Signal (TSVS) to a plurality of Video Displays (VDs) constituting a Multi Video Display (MVD) when the Video Synchronization Calibration Time (VSCT) is reached;
Generating SS (Sync Signals) of the VDs using VTS screens displayed in the VDs; And
And transmitting the SS (Sync Signals) to the VDs.

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