KR101230923B1 - System and Method for Mixing Moving Picture Data - Google Patents

Abstract

The present invention relates to a video data combining system and method, wherein a first mobile communication terminal is connected to a second mobile communication terminal when the first mobile communication terminal having different bandwidths receives the video data from the video transmission device through the video server. When the video data is divided by the short range wireless communication and the video data is divided and transmitted to the first mobile communication terminal and the second mobile communication terminal, the first and second mobile communication terminals are divided and then exchanged and then combined. The present invention relates to a video data combining system and method that can provide a user with the quality of high-definition video data provided by a video transmitting apparatus.

Video call, video, video data, video combination, mobile communication terminal

Description

System and Method for Mixing Moving Picture Data}

The present invention relates to a video data combining system and method, and more particularly, when a mobile communication terminal having a different bandwidth and a video transmission device perform a video call, the video data transmitted from the video transmission device using a plurality of mobile communication terminals. It relates to a video data combining system and method capable of receiving.

With the recent development of mobile communication technology, it is possible to make a video call as well as a voice call wherever the reception range of radio waves from a base station is reached. With this technology development, the mobile communication terminal is not only a simple primary call service that delivers greetings, greetings, news, messages, etc., but also various services such as multimedia services such as video, video conferencing service, and remote lecture service. .

However, when video data is received from a terminal of a network that provides video data with a bandwidth higher than that of a mobile communication network by using a mobile communication terminal, the video data provided at a high bandwidth due to bandwidth limitation of the mobile communication network is originally received. It is not delivered according to quality. Therefore, the quality of video data is reduced by the bandwidth level of the mobile communication network. That is, it does not properly receive a high-definition video service transmitted by the other party. As a result, video services of mobile communication terminals (WCDMA, EV-DO, etc.) are rarely utilized for the purpose of video communication, which requires detailed video and additional materials such as distance education and remote performances in real time.

Therefore, in the technical field, there is a need to develop a technology for enhancing the convenience of a user of a mobile communication service by providing a user with a high quality video service.

In order to solve these problems, an object of the present invention is to divide the high-definition video data received from the video transmission device into a number of mobile communication terminals and deliver them to each mobile communication terminal. It is an object of the present invention to provide a video data combining system capable of displaying high-quality video data by delivering and combining received video data.

Another object of the present invention is to divide the high-definition video data received from the video transmission device by the number of the plurality of mobile communication terminals to deliver to each mobile communication terminal, the mobile communication terminals to transfer the received video data to each other It is an object of the present invention to provide a video data combining method capable of displaying high-quality video data by combining.

In order to achieve these objects, the video data combining system according to the present invention includes a plurality of mobile communication terminals capable of transmitting / receiving video data, and a video for transmitting video data with a bandwidth higher than that provided to the mobile communication terminal. And a video server for dividing and transmitting video data received from the video transmission device into the plurality of mobile communication terminals, wherein the plurality of mobile communication terminals are each received from the video server using short-range wireless communication. Characterized in that the video data is exchanged and then combined.

The mobile communication terminal may be configured to request video data combining to at least one second mobile communication terminal of the plurality of mobile communication terminals using the short range wireless communication, and receive the divided video data from the video server. And at least one second mobile communication terminal for receiving video data divided by the video server at the request of the first mobile communication terminal.

In addition, the first and second mobile communication terminal is a short-range wireless communication module for exchanging a portion of the missing video data among the video data divided and received at the video server, the missing video interchanged with the received video data It characterized in that it comprises a data combining module, each for combining data.

In addition, the video server registers the number of the first mobile communication terminal received from the first mobile communication terminal, and temporarily registers a number for one second mobile communication terminal, or for two or more second mobile communication terminals A registration module for mapping a number to a specific address and registering the registration module; an operation module for performing an operation for equally / evenly dividing the video data received from the video transmission device according to the number of the registered mobile communication terminals; And a transmission / reception module for transmitting the divided video data by the operation to the registered mobile communication terminal.

The operation module may equally divide the video data received from the video transmission device into capacities of the same size according to the number of mobile communication terminals registered in the registration module, or may be received by each mobile communication terminal. Distribute unevenly at a rate proportional to the bandwidth.

In addition, in the video data combining method according to the present invention, a first mobile communication terminal inputs a number corresponding to a video transmission device and a number for at least one second mobile communication terminal to transmit to a video server, and performs a session with the video server. In the connecting step, the first mobile communication terminal searches for at least one second mobile communication terminal performing short-range wireless communication, requests the searched second mobile communication terminal to combine video data, and transmits the video data to the video transmission device. Requesting, the at least one second mobile communication terminal transmits a number corresponding to the video transmission device to the video server in response to a request of the first mobile communication terminal, thereby connecting a session with the video server and the video; Requesting video data to a delivery device; when the video delivery device is connected to a session with the video server, Transmitting video data to the video server in response to a video data request transmitted from the first and at least one second mobile communication terminal, wherein the video server transmits the video data received from the video transmission device to the first and second video communication devices. Dividing according to the number of at least one second mobile communication terminal, and transmitting the divided video data to the first and at least one second mobile communication terminals, respectively, by the video server, the first and second And combining the moving picture data after the mobile communication terminal exchanges each transmitted video data through short-range wireless communication.

In addition, the step of dividing the video data may be equally divided into the size of the same capacity according to the number of mobile communication terminals to transmit the video data transmitted from the video transmission device, or each mobile communication terminal may allow. It is characterized in that the step of disproportionately divided in proportion to the bandwidth.

The method may further include outputting the combined video data by the first and at least one second mobile communication terminal after the combining the video data.

In addition, when the first mobile communication terminal inputs a number for at least one second mobile communication terminal and transmits the number to the video server, when the second mobile communication terminal is one, "the number corresponding to the video transmission device + the second movement." Transmitting to the video server by inputting the number of communication terminals ", if the second mobile communication terminals are two or more, " number corresponding to the video transmission device + address mapped to the second registered mobile communication terminal " It further comprises the step of transmitting to the video server.

If the second mobile communication terminal is two or more, the first mobile communication terminal may further include accessing the video server and registering the two or more second mobile communication terminals by mapping the numbers of the two or more second mobile communication terminals to a specific address. It features.

The method may further include re-searching the second mobile communication terminal if the first mobile communication terminal is not searched by searching for at least one second mobile communication terminal performing near field communication.

As described above, the present invention has the effect of providing high quality video data transmitted from the video transmission device through the plurality of mobile communication terminals to the user without losing quality.

In addition, the present invention has the effect of providing in real time high-definition video data transmitted by the video transmission device using a plurality of mobile communication terminals.

In addition, the present invention has the effect that can provide high-definition video data using a plurality of mobile communication terminals even in the case of distance education and remote performances that require high quality.

In addition, the present invention has the effect that it is possible to provide the high-definition video data required in the existing mobile communication network without the use or addition of additional wired / wireless resources.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the embodiments, descriptions of technical contents that are well known in the technical field to which the present invention belongs and are not directly related to the present invention are omitted. This is to more clearly communicate without obscure the core of the present invention by omitting unnecessary description.

The mobile communication terminal used in the present invention may be a mobile terminal capable of making a video call and confirming video data, a PDA (Personal Digital Assistant), a WiBro phone, a computer, a laptop, and the like. The video transmission device may be a mobile terminal, a PDA, a Wi-Fi phone, a computer, a notebook, and the like, capable of making a video call and transmitting and recording a high quality video.

The video data used in the present invention includes both video data including audio data and video data generated during a video call, and audio and video data including video data and video data for remote lectures and remote performances. The term can be.

1A is a block diagram showing a video data combining system according to an embodiment of the present invention.

Referring to FIG. 1A, a video data combining system 1 includes a mobile communication terminal 100, a communication network 200 including a mobile communication network 210 and an internet network 250, and a video transmission device 300. do. In this case, the mobile communication network 210 may include a base station 212, a base station controller 214, an exchange 216, and an image server 218, and the internet network 250 may include a G / W 252. Can be.

The mobile communication terminal 100 is generally a terminal capable of receiving video data and includes a first mobile communication terminal 102 and at least one second mobile communication terminal 104. The first mobile communication terminal 102 requests video data combining to the second mobile communication terminal 104 using short-range wireless communication. The second mobile communication terminal 104 receives video data divided and transmitted from the video server 218 by the video data combining request of the first mobile communication terminal 102.

The mobile communication terminal 100 may include a short range wireless communication module. The short range wireless communication module connects the first mobile communication terminal 102 and the second mobile communication terminal 104 to the short range wireless communication. As a result, each of the mobile communication terminals 102 and 104 exchanges a part of moving picture data which is not received from the video server 218. In this case, the short-range wireless communication is preferably implemented using Bluetooth, Zigbee, UWB (Ultra Wideband) communication.

The communication network 200 may be formed in a structure in which the mobile communication network 210 and the internet network 250 are connected. The mobile communication network 210 may include a base station 212, a base station controller 214, an exchange 216, and an image server 218.

The base station 212 is wirelessly connected to the mobile communication terminal 100 to control the mobile communication terminal 100 and connect the call channel. The base station controller 214 cooperates with the switch 216 while managing several base stations 212. The switch 216 is a core network element of the mobile communication network 210. The switch 216 controls voice calls and various additional services, sets up a call path, and provides a connection function with various other devices and external networks.

At this time, the base station 212, the base station controller 214 and the switch 216 described in the present invention is preferably a base station transceiver subsystem (BTS), a base station controller (BSC) and a synchronous mobile switching center (MSC). . In addition, if the mobile communication network 210 is a WCDMA communication network, the base station 212, the base station controller 214 and the switch 216 is converted to a Node-B, a Radio Network Controller (RNC), and an asynchronous MSC, respectively. Can be applied.

In addition, the mobile communication network 210 may include a HLR (Home Location Register) (not shown) and a VLR (Visitor Location Register) (not shown). At this time, the HLR is fixed information such as a telephone number of the mobile communication terminal 100, an identification number of the terminal subscriber or the mobile communication terminal 100, personal information of the subscriber, information and authentication information of the service used by the subscriber and the mobile communication terminal. It is a system for storing dynamic information such as the location information of the 100 (the VLR address of the current location, the exchange 216 address, etc.). The mobile communication terminal 100 continuously registers its current position in the HLR to which it belongs from the moment the power is supplied. The current position information of the mobile communication terminal 100 stored in the HLR is obtained by the exchange 216, and enables the incoming call to the subscribers of the mobile communication terminal 100 according to the obtained current position information of the mobile communication terminal 100. do.

The VLR registers and manages location information of the mobile communication terminal 100 entering the jurisdiction, and performs a function of notifying the HLR of the newly acquired location information of the mobile communication terminal 100. The VLR receives and manages a copy of profile information of the mobile communication terminal 100 received from the HLR, and performs a function of utilizing the location control, call processing, and additional service processing of the mobile communication terminal 100. Here, the profile information means a mobile identification number (MIN), an electrical serial number (ESN), additional service information, etc. of the mobile communication terminal 100.

The video server 100 is preferably formed between the switch 216 and the G / W (Gate Way) 252 of the Internet network 250. The video server 218 registers the number of the first mobile communication terminal 102 and the number corresponding to two or more second mobile communication terminals 104 input from the first mobile communication terminal 102 to a specific address. do. In addition, if the number of the second mobile communication terminal 104 inputted from the first mobile communication terminal 102 is one, the image server 218 of the first mobile communication terminal 102 and the second mobile communication terminal 104. Register your number temporarily. In this case, the number corresponding to the second mobile communication terminal 104 means a unique number of the second mobile communication terminal 104 given at the time of subscription. The video server 218 connects the mobile communication terminal 100 with a session for transmitting / receiving video data and connects the session with the video transmitting device 300. In addition, the video server 218 may equalize / unbalance the video data transmitted from the video transmission device 300 to correspond to the number of two temporarily registered mobile communication terminals 100 or the plurality of registered mobile communication terminals 100. Divided and transmitted to the mobile communication terminal (100).

The internet network 250 includes a G / W 252. The G / W 252 is a kind of protocol converter, and enables the video call transmission and reception between the mobile communication network 210 and the internet network 250 having different bandwidths. In another embodiment of the present invention, data of a bandwidth different from that of a mobile communication terminal may be transmitted through a wireless network such as a WiBro network as well as an internet network which is a wired network. In addition, it will be clear that the communication network, which is to be provided in the future, may be applied to the present invention according to the development of mobile communication technology.

The video transmission device 300 may transmit video data having a higher bandwidth than the mobile communication terminal 100. The video transmission device 300 may transmit not only a high definition video call but also high definition video data including a distance education and a remote performance through the Internet network 250.

1B is a block diagram showing a video data combining system according to another embodiment of the present invention. 1B shows a video data combining system in an IP network.

Referring to FIG. 1B, a video data combining system 2 in an IP network includes a mobile communication terminal 100, a communication network 200 including a mobile communication network 210, and an internet network 250, and a video transmission device 300. It is configured to include. In this case, the mobile communication network 210 may include an IP network 210a, a base station 212, a base station controller 214, and the IP network 210a may include a data service node 216a, a location register 217a, The call controller 217b and the image server 218 may be included, and the internet network 250 may include the G / W 252.

In FIG. 1B, the functions of the elements except for the elements included in the IP network 210a are the same as the functions of the elements described in FIG. 1A, and thus detailed descriptions thereof will be omitted.

The IP network 210a refers to an integrated network centered on IP, capable of large data service, and seamless data service.

The data service node 216a is a system that performs data processing, and has functions such as packet router and transmission, mobility management, logical link management, and multimedia session control. In the present invention, the data service node 216a transmits the video data received by the video server 218 from the video transmission device 300 to the mobile communication terminal 100.

The location register 217a is a home subscriber server (HSS) and performs an authentication function in addition to the function of the HLR described in FIG. 1A. The location register 217a is a server that manages subscriber service information in all networks existing in 2.5G and 3G, and will be continuously used in all-IP networks to be developed in the future. At this time, the All-IP network means a network having a structure in which different networks are integrated based on the Internet protocol.

The call controller 217b is a call state control function (CSCF) and is responsible for the part related to call and session processing. The call controller 217b performs a function as a gateway to incoming signals, a call control function, a serving profile database (SDP) function, an address processing function, and the like.

The video server 218 is the same as the function of the video server 218 described in Figure 1a, so a detailed description thereof will be omitted.

2 is a block diagram showing the main configuration of a mobile communication terminal and a video server according to an embodiment of the present invention.

1A and 2, the mobile communication terminal 100 includes a short range wireless communication module 100a and a data combining module 100b, respectively. The short range wireless communication module 100a is used to exchange a part of moving picture data which is not received by each mobile communication terminal 102 or 104 among the moving picture data divided and transmitted by the video server 218.

The data combining module 100b is used to combine the video data exchanged by the short range wireless communication module 100a to generate high quality video data transmitted from the video transmitting device 300 to the video server 218.

Meanwhile, the image server 218 includes a registration module 218a, a calculation module 218b, and a transmission / reception module 218c.

The registration module 218a registers a specific table by registering a second mobile communication terminal 104 that should divide and transmit high-definition video data transmitted from the video transmission device 300 according to a request of the first mobile communication terminal 102. Create In this case, the mobile communication terminal 100 is preferably a first mobile communication terminal 102 and at least one second mobile communication terminal 104. Specifically, the registration module 218a maps the number of the second mobile communication terminal 104 to a specific address only when there are two or more second mobile communication terminals 104 input from the first mobile communication terminal 102. Register in the table. When there is only one second mobile communication terminal 104 input from the first mobile communication terminal 102, the registration module 218a temporarily registers the numbers of the first and second mobile communication terminals 102 and 104. do.

In this case, the video server 218 preferably includes a database (not shown) that stores a table in which the numbers of the first mobile communication terminal 102 and the second mobile communication terminal 104 and a specific address and number are registered. . Table 1 shows a specific table in which the numbers and numbers of the first and second mobile communication terminals 102 and 104 are registered. In Table 1, the numbers described as (11), (12) and (13) after the second mobile communication terminal mean a specific address.

Classification 1st mobile communication terminal Second mobile communication terminal 1 (11) 2nd mobile communication terminal 2 (12) 2nd mobile communication terminal 3 (13) number 010-2423-0000 011-234-1111 010-7655-2222 011-654-3333 Count 4

The calculating module 218b may calculate to divide the video data transmitted from the video transmitting device 300 into the same capacity according to the number of registered mobile communication terminals 100. For example, assuming that video data is 20, which is a quantitative value without a unit, when the mobile communication terminal 100 is to be divided and transmitted to four mobile communication terminals 100 as shown in Table 1, the calculation module 218b divides the 20 into four. The video data is divided equally so that each of the four mobile communication terminals 100 can be transmitted five by five.

In addition, it may be necessary to divide and transmit video data to a mobile communication terminal 100 that supports fast download and a mobile communication terminal 100 that does not support fast download. At this time, the operation module 218b unevenly divides the video data so that the video data received from the video transmission device 300 can be transmitted in proportion to the bandwidth that the mobile communication terminal 100 can allow. For example, the video data may be divided by the bandwidth ratio in frame units and transmitted to the mobile communication terminal 100, and the packet for each frame of the video data may be divided by the bandwidth ratio of the mobile communication terminal 100 and transmitted. .

The transmission / reception module 218c connects a plurality of mobile communication terminals 100 and a video transmission device 300 with a session for transmitting / receiving video data, and moves the video data received from the video transmission device 300 to a plurality of movements. Transmission to the communication terminal 100.

Looking at the video server 218 by combining the operation of each module, the video server 218 is the number and number of the first mobile communication terminal 102 and the second mobile communication terminal 104 by the registration module 218a Register. According to the number of the registered first mobile communication terminal 102 and the second mobile communication terminal 104, the calculation module 218b divides the video data received from the video transmission device 300. The transmission / reception module 218c connects a session for transmitting / receiving video data between the mobile communication terminals 100 according to the value calculated by the calculation module 218b, and connects a session with the video transmission device 300. In addition, the transmission and reception module 218c transmits the video data received from the video transmission device 300 to the plurality of mobile communication terminals 100 registered in the registration module 218a according to the calculation value calculated in the calculation module 218b. do.

3 is a conceptual diagram illustrating a video data transmission process from a video transmission device to a mobile communication terminal in a video data combining system according to an embodiment of the present invention.

1A and 3, the number of the first mobile communication terminal 102 and the number of the second mobile communication terminal 104 provided by the first mobile communication terminal 102 are temporarily registered in the video server 218. The video transmission device 300 is connected to the Internet network 250 by wire / wireless. Therefore, when video data is transmitted from the video transmitting device 300 to the mobile communication terminal 100, the calculation module 218b of the video server 218 divides the transmitted video data into two video data. The transmission / reception module 218c transmits the video data divided by the calculation module 218b to each of the mobile communication terminals 102 and 104. That is, the video server 218 transmits video data including video data, audio data, and information data into two paths according to the mobile communication protocol stack.

Since the contents of the video data transmitted to the first mobile communication terminal 102 and the second mobile communication terminal 104 are different from each other, the first mobile communication terminal 102 and the second mobile communication terminal 104 are divided below. Explain. First, video data transmitted to the first mobile communication terminal 102 is separated into multiple logical channels by a multiplexer / demultiplexer. In this case, the plurality of logical channels mean an image logical channel, an audio logical channel, and a control logical channel. The video data included in the video data is transmitted to a video I / O through a video logical channel, and is transmitted to the first mobile communication terminal 102 within a limited range of bandwidth allocated by the video input / output device. . The voice data included in the video data is transmitted to the audio I / O through the voice logical channel, and the voice data is transmitted to the first mobile communication terminal 102 through the voice input / output device. In this case, the audio data is transmitted to the first mobile communication terminal 102 instead of being divided and transmitted within the bandwidth limit like the video data. The control message for the first mobile communication terminal 102 is transmitted to the first mobile communication terminal 102 through a control logical channel.

Next, referring to the second mobile communication terminal 104, the process of transmitting video data of the first mobile communication terminal 102 is similar. However, a portion of the image data that is not transmitted to the first mobile communication terminal 102 is transmitted to the second mobile communication terminal 104 by the video input / output device to the second mobile communication terminal 104. On the other hand, since the voice data is completely transmitted to the first mobile communication terminal 102, it is not transmitted to the second mobile communication terminal 104. However, the present invention is not limited thereto, and the audio data may be divided into the first mobile communication terminal 102 and the second mobile communication terminal 104 and transmitted like the image data. The control message for the second mobile communication terminal 104 is transmitted to the second mobile communication terminal 104 through the control logical channel.

When the video data transmission from the video server 218 to the mobile communication terminal 100 ends, the first mobile communication terminal 102 and the second mobile communication terminal 104 exchange video data using short-range wireless communication. . That is, the first mobile communication terminal 102 transmits the video data and the audio data transmitted from the video server 218 to the second mobile communication terminal 104, and the second mobile communication terminal 104 transmits the video server 218. ) Transmits the image data transmitted from the first to the first mobile communication terminal (102).

Subsequently, the first mobile communication terminal 102 and the second mobile communication terminal 104 combine the transmitted video data to generate high quality video data, and each mobile communication terminal 102 or 104 generates the high quality video. Output video data. At this time, when the second mobile communication terminal 104 only serves to transmit a part of the image data to the first mobile communication terminal 102, the second mobile communication terminal 104 to the first mobile communication terminal 102. Delete part of the transmitted video data. As a result, the second mobile communication terminal 104 may not output high quality video data, thereby enabling protection of the privacy of the first mobile communication terminal 102.

Meanwhile, although the second mobile communication terminal 104 is illustrated in FIG. 3 as one embodiment of the present invention, in another embodiment, there may be a plurality of second mobile communication terminals 104.

4 is a flowchart illustrating a video data transmission process in a video data combining system according to an embodiment of the present invention.

1A and 4, in step S401, the first mobile communication terminal 102 attempts to receive video data obtained by dividing the number corresponding to the video transmission device 300 for transmitting the high quality video data and the high definition video data. The number of the second mobile communication terminal 104 is input and transmitted to the video server 218. In this case, if the number of the second mobile communication terminal 104 inputted from the first mobile communication terminal 102 is one, the first mobile communication terminal 102 determines the number of the video transmission device 300 at the video server (S402). 218). For example, if the number input in step S401 is in the form of "number of the video transmission device 300 + # + number of the second mobile communication terminal 104", the first mobile communication terminal 102 proceeds to step S402. It is desirable to. In addition, for example, when the video server 218 receives the "number of the video transmitting device 300 + # + 11 + 12 + 13" from the first mobile communication terminal 102, the addresses of 11, 12, 13 It is preferable to extract the number of the second mobile communication terminal 104 registered in advance in step S402.

In step S402, the first mobile communication terminal 102 is mapped to the number of the video transmission device 300, the number of the second mobile communication terminal 104 and the number of the second mobile communication terminal 104 input in step S401. The specific address is transmitted to the video server 218.

However, when two or more numbers of the second mobile communication terminal 104 are input from the first mobile communication terminal 102 in step S401, the first mobile communication terminal 102 proceeds to step S403 and the plurality of inputted items are entered. 2 The number for the mobile communication terminal 104 is transmitted to the video server 218. In operation S404, the video server 218 registers the numbers of the plurality of second mobile communication terminals 104 transmitted from the first mobile communication terminal 102 in a specific table as shown in Table 1 below. In this case, the total number of mobile communication terminals 100 may also be registered in the video server 218. For reference, in step S401, the number of the plurality of second mobile communication terminals 218 is input, and in steps S403 and S404, before the first mobile communication terminal 102 performs a video call with the video transmission device 300, It is preferable that the first mobile communication terminal 102 connects to the video server 218 in advance by wireless data communication.

In operation S405, the video server 218 connects the session with the first mobile communication terminal 102. When the first mobile communication terminal 102 detects that the session is connected to the video server 218, the first mobile communication terminal 102 proceeds to step S406 and the second mobile communication terminal 104 capable of short-range wireless communication is performed. Search if it exists within a certain distance. As a result of the search, if the second mobile communication terminal 104 exists within a predetermined distance, the first mobile communication terminal 102 proceeds to step S407, and if the second mobile communication terminal 104 does not exist, the first mobile communication terminal 104 exists. 102 performs a rescan of the second mobile communication terminal 104.

In operation S407, the first mobile communication terminal 102 requests the second mobile communication terminal 104 to combine video data. At this time, the first mobile communication terminal 102 transmits the number of the video transmission device 300 for transmitting the high quality video data to the second mobile communication terminal 104 together. Thereafter, the first mobile communication terminal 102 proceeds to step S408 and requests video data from the video delivery device 300.

In operation S409, the second mobile communication terminal 104 transmits the number corresponding to the video transmission device 300 transmitted from the first mobile communication terminal 102 to the video server 218. Thereafter, in step S410, the second mobile communication terminal 104 requests video data from the video delivery device 300.

In operation S411, the video server 218 connects a session with the second mobile communication terminal 104. In step S412 video server 218 enters the video data combining mode for performing the video data combining function and the video server 218 video corresponding to the number of the video delivery device 300 transmitted in steps S402 and S409 Recognize the delivery device 300. In operation S413, the video server 218 connects a session with the video transmission device 300. If the video delivery server 300 detects that the session is connected to the video server 218, the video delivery device 300 transmits high quality video data to the video server 218 in step S414.

Subsequently, in operation S415, the video server 218 divides the high quality video data being transmitted from the video transmission device 300 or completed. At this time, the video server 218 may equally divide the high-quality video data received from the video transmission device 300 into the same capacity according to the number of the first and second mobile communication terminals (102, 104), Each mobile communication terminal 102, 104 may be unevenly divided by a ratio proportional to the allowable bandwidth. In addition, the high quality video data is preferably video data composed of video data, audio data, and information data.

In operation S416, the video server 218 transmits the video data divided in operation S415 through the video call session connected to each of the mobile communication terminals 102 and 104 in steps S405 and S411, respectively. To send.

Subsequently, in step S417, the first mobile communication terminal 102 and the second mobile communication terminal 104 each transmit a portion of video data that is not transmitted to their terminal through the image server 218. Interchange with each other via UWB. Specifically, the first mobile communication terminal 102 transmits the video data received from the video server 218 to at least one second mobile communication terminal 104, the at least one second mobile communication terminal 104 The video data received from the video server 218 is transmitted to the first mobile communication terminal 102.

Subsequently, in step S418, the first mobile communication terminal 102 and the second mobile communication terminal 104 combine the video data transmitted from the different mobile communication terminals 102 and 104 and the video data received by the mobile terminal 102 and the high definition video. Generate data. In this case, the combining of the moving image data may be performed even while receiving the moving image data from different mobile communication terminals 102 and 104 and may be performed after the reception is completed.

In operation S419, the first mobile communication terminal 102 and the second mobile communication terminal 104 output high-quality video data of which the combining is completed. As a result, each of the mobile communication terminals 102 and 104 may provide high-quality video data transmitted from the video transmitting device 300 and received through the video server 218 to the user without deterioration in quality as the original quality. .

Thus far, the video data combining system and method according to the present invention have been described. In the present specification and drawings, preferred embodiments of the present invention have been disclosed, and although specific terms have been used, these are merely used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the present invention. It is not intended to limit the scope. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

According to the present invention, the existing mobile communication terminal can have an effect of enabling a video call of higher quality than the existing image quality. In addition, by allowing users to watch remote performances, lectures, etc. in higher quality than the existing services, mobile operators can have a useful and practical effect that can provide high-quality value-added services to customers without additional facilities.

Figure 1a is a block diagram showing a video data combining system according to an embodiment of the present invention

1B is a block diagram showing a video data combining system according to another embodiment of the present invention.

2 is a block diagram showing the main configuration of a mobile communication terminal and a video server according to an embodiment of the present invention;

3 is a conceptual diagram illustrating a video data transmission process from a video transmission device to a mobile communication terminal in a video data combining system according to an embodiment of the present invention.

4 is a flowchart illustrating a video data transmission process in a video data combining system according to an embodiment of the present invention.

Claims (11)

A plurality of mobile communication terminals capable of transmitting and receiving video data; A video delivery device for transmitting video data with a bandwidth higher than that provided to the mobile communication terminal; And a video server for dividing the video data received from the video transmission device into the plurality of mobile communication terminals and transmitting the divided video data. The video server registers a number of the first mobile communication terminal received from the first mobile communication terminal, temporarily registers a number for one second mobile communication terminal, or registers a number for two or more second mobile communication terminals. A registration module configured to map and register a specific address, a calculation module configured to divide the video data received from the video transmission device according to the number of the registered first and second mobile communication terminals, and And a transmission / reception module for transmitting the video data divided by the operation to the registered first and second mobile communication terminals. delete The method of claim 1, The first and second mobile communication terminal A short range wireless communication module for exchanging a part of the missing video data among the video data divided and received by the video server; A data combining module for combining missing video data interchanged with the received video data; Video data combining system, characterized in that it comprises a. delete The method of claim 1, The calculation module According to the number of first and second mobile communication terminals registered in the registration module, video data received from the video transmitting device may be equally divided into capacities, or the first and second mobile communication terminals may respectively receive the video data. A video data combining system, characterized in that it divides unevenly at a proportion proportional to the bandwidth. Transmitting, by the first mobile communication terminal, a number corresponding to the video transmission device and a number for at least one second mobile communication terminal to the video server; Connecting, by the first mobile communication terminal, the session with the video server; Searching for at least one second mobile communication terminal for performing short-range wireless communication by the first mobile communication terminal, requesting combining of video data to the searched second mobile communication terminal, and requesting video data to the video transmitting device; The at least one second mobile communication terminal transmits a number corresponding to the video transmission device to the video server in response to a request of the first mobile communication terminal, thereby connecting a session with the video server and moving the video to the video transmission device. Requesting data; Transmitting video data to the video server in response to a video data request transmitted from the first and at least one second mobile communication terminal when the video transmission device is connected to the video server; Dividing, by the video server, video data received from the video transmission device according to the number of the first and at least one second mobile communication terminal; Transmitting, by the video server, the divided video data to the first and at least one second mobile communication terminal, respectively; Combining the video data after the first and second mobile communication terminals exchange each of the transmitted video data through short-range wireless communication; Including, Inputting the number for the second mobile communication terminal and transmitting to the video server If the second mobile communication terminal is one, transmitting the "number corresponding to the video transmission device + the number of the second mobile communication terminal" to the video server; And if the second mobile communication terminal is two or more, transmitting the number corresponding to the video transmission device + the address mapped to the registered second mobile communication terminal to the video server. . The method of claim 6, Splitting the video data Evenly divide the video data transmitted from the video transmission device into the same size according to the number of mobile communication terminals to be transmitted, or unevenly divided by a proportion proportional to the bandwidth allowed by each mobile communication terminal. Video data combining method characterized in that the step of doing. The method of claim 6, After the step of combining the video data Outputting the combined video data by the first and at least one second mobile communication terminal; Video data combining method further comprises. delete The method of claim 6, If the second mobile communication terminal is two or more, the first mobile communication terminal accessing the video server and registering the two or more second mobile communication terminals by mapping the numbers of two or more second mobile communication terminals to a specific address; Video data combining method further comprises. The method of claim 6, Re-searching the second mobile communication terminal if the first mobile communication terminal is not found by searching for at least one second mobile communication terminal that performs short-range wireless communication; Video data combining method further comprises.

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