KR20120056666A - System and method for providing a video message transmission service - Google Patents

Abstract

PURPOSE: An image message transmission service providing system and method thereof are provided to reproduce image messages edited by a user terminal by transmitting the image message through a broadcast infra provided by a broadcast service provider. CONSTITUTION: A service provider interlocking unit(230) interlocks with plural broadcast servers in order to transmit image messages to a reception apparatus corresponding to the reception information of the image message. A charging and distribution processing unit(240) adds service charges according to the transmission of the image message. The charging and distribution processing unit distributes charges to a broadcast server which transmits the image message. A content management unit(250) manages the image message from a message transmission terminal. The content management unit transmits the image message according to the request of the broadcast server.

Description

System and method for providing a video message transmission service

The present invention relates to a system and method for providing a video message transmission service, and more particularly, to a video message transmission service providing system for transmitting a video message using a terminal such as a personal computer, a smartphone, and playing a video message using a digital television. And to a method.

Television has been recognized as a user-friendly service providing terminal, and related service providers are expanding from existing terrestrial and cable broadcasting providers to satellite, IPTV, and DMB. Broadcasting services themselves are also transitioning from analog to digital, and content providers are also increasing.

Television is recognized as a medium that provides various convergence services beyond the existing image-oriented content reproduction, and the content provided by communication services such as data broadcasting and games is provided as one additional service. In accordance with the change of the environment, the present invention intends to propose a method for providing a video letter or SMS service provided mainly on a mobile phone through a television.

SMS transmission service among digital convergence service provided by digital broadcasting service is generally transmitted to mobile phone or to subscribers subscribed to messenger such as MSN. In case of video call service, set-top with VoIP function It is possible to provide only a camera and a microphone in the box, and there is an additional cost for infrastructure construction for quality assurance.

SUMMARY OF THE INVENTION An object of the present invention is to provide a video message transmission service providing system and method for transmitting a video message edited through a user terminal to a receiver through a broadcasting infrastructure provided by a broadcaster, and receiving and playing the video message at a receiver. will be.

In other words, in the present invention, the broadcaster uses only the existing infrastructure, and the user simply edits the video message using various terminals possessed and delivers the video message to the receiver's television regardless of which broadcaster the subscriber is subscribed to. An object of the present invention is to provide an apparatus and method for receiving and playing a video message corresponding to a receiver.

In order to achieve the above object, a message portal server of a video message transmission service providing system according to an embodiment of the present invention includes an editing tool providing unit that provides an application for editing a video message to a message transmission terminal; A service provider interworking unit interworking with a plurality of broadcast servers to transmit a video message to a receiver corresponding to receiver information of the video message for transmitting the video message generated by the message transmitting terminal; A charging / distributing processor for adding a service fee according to the video message transmission and distributing the fee to the broadcast server that has performed the video message transmission; And a content management unit managing the video message from the message transmission terminal and transmitting the video message in response to a request from the broadcast server.

The receiver information of the video message is transmitted to a plurality of broadcast servers to request confirmation of whether the corresponding receiver subscribes to the service, thereby detecting the position of the receiver to receive the video message.

Video messages are generated in the form of broadcast applications based on either Xlet or HTML.

The video message includes advertisement information.

In order to achieve the above object, a broadcast server of a video message transmission service providing system according to an embodiment of the present invention includes an OSS / BSS for confirming and processing subscriber information such as a terminal, a subscriber, and product information; A terminal manager for managing object information for management of the receiver; An SI generator for describing metadata in a descriptor in the SI table and muxing the broadcast stream; And a transmitting unit for transmitting the broadcasted muxed metadata to the receiver.

The apparatus further includes a download unit for downloading the video message received from the message portal server to the receiver.

In order to achieve the above object, a video message transmission service providing method according to an embodiment of the present invention, generating a video message; Searching for a receiver to transmit a video message; Transmitting a video message to the retrieved receiver in the searching step; Adding a service fee according to a video message transmission to a user of a message transmission terminal; And distributing a service fee to the broadcast server that has performed the video message transmission.

In the step of searching for a receiver, the receiver information of the video message is transmitted to a plurality of broadcast servers to request confirmation of whether the corresponding receiver subscribes to the service to search for the location of the receiver to receive the video message.

In the generating of the video message, a video message in the form of a broadcast application based on one of Xlet and HTML is generated.

In generating a video message, a video message including advertisement information is generated.

The system and method for providing a video message transmission service transmits a video message through a television broadcasting network, so that a user can transmit a video message using a television with the longest and most accessible time with the least cost and effort. In addition, by utilizing existing infrastructure and technology, it is possible to obtain additional profits, and portal operators can commercialize by creating a market connecting users and broadcasters.

1 is a view for explaining a video message transmission service providing system according to an embodiment of the present invention.
FIG. 2 is a diagram for explaining the message portal server of FIG. 1; FIG.
3 and 4 are diagrams for explaining the broadcast server of FIG.
5 and 6 are views for explaining the receiver of FIG.
7 and 8 are diagrams for explaining a video message transmission method.
9 is a diagram illustrating a method of interworking a message portal and a broadcast server.
10 is a view for explaining a video message reproduction method of the receiver.
11 is a diagram for explaining an output type of a video message.

Hereinafter, the preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention. . First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

First, before describing the system and method for providing a video message transmission service according to an embodiment of the present invention, digital broadcasting and data broadcasting to which the system and method for providing a video message transmission service according to an embodiment of the present invention are applied will be described. .

The digital broadcast stream is transmitted based on the MPEG-2 TS standard. The digital broadcast stream includes an AV, an application, and an SI (Service Information (EPG)). This is called multiplexing in one TS. The receiver receives and de-multiplexes TS through RF (Internet Frequency) or the Internet network, extracts AV, application, and SI information, and delivers the information to a decoder or middleware. A user may view schedule information or receive additional information related to AV through an electronic program guide (EPG) based on a middleware, an Xlet (Java-based application format for broadcasting), or an HTML-based document.

Applications that provide additional information based on Xlets or HTML provide mainly program related information or simple games. EPG shows service channel information and schedule information provided by operators.

Data broadcasting has been recognized as a medium for providing convergence convergence services, and various types of services are being considered and launched. One such service is related to the present invention as a video SMS service, which is a message transmission service that is mainly used in mobile phones. In particular, due to the characteristics of television, the same level of quality as a broadcast service is provided by delivering a message service including a video to a television.

In the present invention, a portal company intending to commercialize a television-based video message service operates a message portal server, receives a message between a user and a broadcaster, delivers the message to the broadcaster, and delivers the message to the television of the broadcast subscriber. Portal operators have a business model that charges for sending messages from users and distributes some of them to broadcasters. Of course, in case of a broadcasting company, a portal may be directly operated to provide a service through linkage with another broadcasting company.

Hereinafter, a video message transmission service providing system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a view for explaining a video message transmission service providing system according to an embodiment of the present invention. FIG. 2 is a diagram for describing the message portal server of FIG. 1, FIGS. 3 and 4 are diagrams for describing the broadcast server of FIG. 1, and FIGS. 5 and 6 are diagrams for explaining the receiver of FIG. 1. .

As shown in FIG. 1, the video message transmission service providing system includes a message transmission terminal 100, a message portal server 200, a broadcast server 300, and a receiver 400.

The message transmission terminal 100 edits an image message and transmits the edited video message to the message portal server 200. The message transmission terminal 100 includes a camera 120 and a microphone 140 for generating a video message such as a PC, a PMP, a smartphone, and the like, and can access a portal site and a message portal server 200 through the Internet. It consists of a device.

The message transmission terminal 100 connects to the portal site through a web browser and produces a message using an editing tool provided from the message portal server 200. The message transmission terminal 100 may download and install a dedicated application for editing a video message from the message portal server 200 and edit the video message through the dedicated application.

The message transmission terminal 100 generates a video message having various effects through a pre-edited video, an image, an accessory function, and the like. The message transmission terminal 100 outputs a video message generated in the same form as a screen displayed on the receiver 400 (ie, a television) through a preview.

The message transmission terminal 100 transmits a video message generated to the message portal server 200 when a video message transmission is requested by a user. In this case, the message transmission terminal 100 performs the payment for the cost of transmitting the video message. That is, the message transmission terminal 100 proceeds through payment means such as a certificate, a mobile phone bill, a card, a bank transfer. The message transmission terminal 100 transmits an image message to the message portal server 200. Here, the form of the content for the video message may simply be a piece of video, but when the Xlet or HTML standard defined as a standard type in the broadcasting middleware can produce various effects. In the case of video fragments, media playback can only be done in the same way as broadcast stream playback. However, in the case of an application such as Xlet, a video playback policy can be implemented in logic and the receiver can take action. For example, when sending a wedding invitation in the form of a video message, it may provide a function such as clicking a map of a wedding hall or connecting to post a bulletin board. The important thing here is that unlike a simple video playback, the editing tool is a broadcasting middleware to create and preview video message contents (or, more accurately, video message playback application) with a standard API or web document defined in the data broadcasting standard. There must be a stack.

When the message transmitting terminal 100 finally transmits the video message to the message portal server 200 in the editing tool, it specifies identification information of the receiving terminal. That is, since the message transmission terminal 100 does not have clear information such as a subscription operator, a telephone number, etc. like a mobile phone, the message transmission terminal 100 is specified as a combination of information for distinguishing recipients when transmitting a video message. For example, the message transmission terminal 100 uses a recipient name, address, social security number, subscriber name, telephone number, and the like. At this time, the identification and delivery of the actual receiver 400 of the recipient is processed in conjunction with the broadcast server 300 in the message portal server 200.

The message portal server 200 is operated by a portal company that wants to commercialize a television-based video message service. The message portal server 200 receives a video message between the user and the broadcaster, delivers the video message to the broadcaster, and delivers the message to the television of the broadcast subscriber. Of course, the message portal server 200 may be operated by a broadcaster and provide a video message service through interworking with other broadcasters. In this case, the message portal server 200 has a business model that charges a fee for transmitting a message from a user and distributes a part to a broadcaster.

The message portal server 200 manages a video message received (uploaded) from the message transmission terminal 100 (ie, the sender). The message portal server 200 transmits the receiver's information to the broadcast server 300 of each broadcaster in order to transmit the video message to the receiver 400 of the corresponding receiver (ie, the broadcast terminal and the television). That is, the message portal server 200 transmits the receiver's information to each broadcast server 300 to request confirmation of the subscriber's subscription (that is, whether the broadcast service is used).

The message portal server 200 completes the payment when the subscription confirmation is received from the broadcast server 300 and transmits the video message to the download server of the broadcasting company. Here, the message portal server 200 completes the payment after receiving the subscription confirmation of the receiver from the broadcast server 300 in order to make the payment only when the actual transmission of the video message is possible.

To this end, as shown in Figure 2, the message portal server 200 from the editing tool provider 210, the broadcast server 300 to provide an application for editing the video message to the message transmission terminal 100; Terminal connection management unit 220 to manage the terminal connection according to the sender blocking request of the service provider interworking unit 230 interworking the message portal server 200 and the broadcast server 300 for the accurate transmission of the video message, video message transmission Charge / distribution processing unit 240 according to the charge / distribution processing unit 240 for distributing to the broadcast server 300, manages the video message from the message transmission terminal 100, and download unit 320 of the broadcast server 300 It is configured to include a content manager 250 to transmit to.

The broadcast server 300 transmits the video message from the message portal service to the receiver 400 of the receiver. At this time, the broadcast server 300 configures the metadata so that the receiver 400 receives the message and transmits the metadata to the SI generator 340 or the terminal manager 330. In this case, the broadcast server 300 configures metadata including sender information, message type, location information, receiver 400 information, and receiver information.

The broadcast server 300 describes the metadata using a descriptor in the SI table, muxes the video message to the broadcast stream, and delivers the metadata to the receiver 400. The broadcast server 300 manages each receiver 400 by using object information, and may add a video message as one object.

To this end, as shown in Figure 3, the broadcast server 300 is a video message received from the OSS / BSS 310, the message portal server 200 to confirm and process the subscriber information, such as terminal, subscriber, product information, Downloader 320 for downloading the application module to the receiver 400, terminal management unit 330 for managing object information for the management of the receiver 400, metadata in a descriptor in the SI table to describe the metadata into the broadcast stream SI generator 340, and the transmitter 350 for transmitting the metadata stream muxed to the receiver (400). In this case, the terminal manager 330 adds the video message as one object in the object information for managing each receiver 400. Here, as shown in Figure 4, the broadcast server 300, such as OSS / BSS 310, the system for subscriber management or subscription product management, the terminal management server for managing the terminal of the subscriber, download to transmit the necessary data Each server may be configured as an independent server, such as an SI server for transmitting metadata for extracting a schedule or media of a service to be provided and a transmission server for carrying A / V video on a channel.

The receiver 400 outputs a video message from the broadcast server 300. That is, the receiver 400 accesses the download unit 320 or the message portal server 200 of the broadcast server 300 to receive (download) the video message using the metadata received from the broadcast server 300. The receiver 400 plays the video message downloaded at the time selected by the receiver. The receiver 400 acquires basic information for receiving a service through the SI information from the broadcast server 300 and downloads and performs the A / V information or application through a stream or an HTTP server.

The receiver 400 may extract information transmitted to itself by monitoring the presence or absence of a descriptor including the video message related information. At this time, when the receiver 400 receives the message in the power saving mode or in the service state, the receiver 400 outputs an icon or a message indicating the reception status on the screen to notify the receiver of the reception of the video message. The receiver 400 outputs sender information and receiver information of the video message selected by the user. The receiver 400 plays the video message selected by the user.

The receiver 400 processes the media in the form of media playback according to the type of the video message, or in the case of an application, reproduces the message in the form of application driving (in the case of an HTML document, output by a viewer such as a browser). At this time, the receiver 400 is equipped with middleware for data broadcasting processing as well as the image playback capability for the application-type message processing.

To this end, as shown in FIG. 5, the receiver 400 includes a middleware unit 420 that performs a function related to driving an application of an image message, and an image processor 440 that outputs an image message. For example, as shown in FIG. 6, the middleware unit 420 may be composed of a Java middleware 421, a web middleware 422, a terminal manager 423, and an SI processor 424.

As described above, the video message transmission service providing system transmits a video message through a television broadcasting network, so that the user can transmit the video message using a television that is most familiar and has a long access time with minimal cost and effort. For operators, additional revenue can be obtained by utilizing existing infrastructures and technologies, and portal operators can be commercialized by creating markets that connect users with broadcasters.

Hereinafter, a method of providing a video message transmission service according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 7 to 11 are views for explaining a video message transmission service providing method.

First, the message transmission terminal 100 generates a video message. The message transmission terminal 100 is connected to the message portal server 200 by a web site, a dedicated application installation method, or the like. The message transmission terminal 100 generates a video message using an editing tool provided from the message portal server 200. The message transmission terminal 100 transmits the generated video message to the message portal server.

In this case, as shown in FIG. 7, the message transmission terminal 100 includes recipient information including the name, week number, phone number, address, etc. of the receiver, sender information including the name, week number of the sender, video, audio, The video message including the content such as HTML, Xlet, and payment information for the cost of the video message is transmitted to the message portal server 200.

Of course, as shown in FIG. 8, when using the terminal in which the camera 120 and the microphone 140 are built as the message transmitting terminal 100, first, a dedicated application is downloaded from the message portal server 200 to transmit a message. It is installed in the terminal 100. The camera 120 and the microphone 140 record video and audio to be used for video messages. The user edits a video message such as screen size adjustment, effect insertion, additional information insertion, etc. using a dedicated application installed in the message transmission terminal 100. In this case, the user may further edit using the pre-stored image. Insert recipient information and sender information into the video message, and perform additional functions such as group management, usage phrases, and content management for additional information. The message transmitting terminal 100 transmits the edited video message to the message portal server 200.

The message portal server 200 provides a video message received from the message transmission terminal 100 to the receiver through the broadcast server 300. First, the receiver 400 of the search unit 270 transmits receiver information to the plurality of broadcast servers 300 and requests confirmation on whether to subscribe to a broadcast service.

When the subscription of the corresponding receiver is confirmed from the broadcast server 300, the reception information transmitter 260 transmits the receiver information, the sender information, and the video message to the terminal manager 330 and the SI generator 340 of the corresponding broadcast server 300. To send. At this time, the content manager 250 transmits the video message to the download unit 320 of the broadcast server 300. The charging / distributing processor 240 performs charging processing on the video message and distributes a part of the charges charged to the corresponding broadcast server 300.

The SI generator 340 configures metadata including sender information, message type, location information, receiver 400 information, and receiver information. The SI generator 340 muxes the metadata in the broadcast video and transmits the metadata to the receiver 400. Of course, the terminal manager 330 may add the video message as one object in the object information of the receiver 400 and transmit the same.

The receiver 400 detects metadata from a broadcast image or an object received from the broadcast server 300, and downloads and reproduces a corresponding video message from the download unit 320. That is, as shown in FIG. 10, the receiver 400 processes the media in the form of media playback or the application is driven in the case of an application (in the case of an HTML document, outputted by a viewer such as a browser) according to the type of a video message. To play the message. In this case, the receiver 400 reproduces only an image as shown in FIG. 11A, or reproduces a combination of the image and various information (Xlet, HTML) as shown in FIG. 11B, or FIG. 11 ( Play the video with various effects as in c).

As described above, the method of providing a video message transmission service transmits a video message through a television broadcasting network, so that a user can transmit a video message using a television with the longest and most accessible time with minimal cost and effort. For broadcasters, additional revenue can be obtained by utilizing existing infrastructure and technology, and portal operators can commercialize it by creating a market connecting users and broadcasters.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but many variations and modifications may be made without departing from the scope of the present invention. It will be understood that the invention may be practiced.

100: message transmission terminal 120: camera
140: microphone 160: edit screen
200: message portal server 210: editing tool provider
220: terminal connection management unit 230: operator interworking unit
240: billing / distribution processing unit 250: content management unit
260: Receiving information transmission unit 270: Receiver search unit
300: broadcast server 310: OSS / BSS
320: download unit 330: terminal management unit
340: SI generating unit 350: transmitting unit
360: CAS management unit 370: MUX
400: receiver 420: middleware part
421: Java middleware 422: web middleware
423: terminal management unit 424: SI processing unit
440: image processing unit 500: transmission network

Claims (1)

An editing tool providing unit for providing an application for editing a video message to a message transmitting terminal;
A service provider interworking unit interworking with a plurality of broadcast servers to transmit the video message to a receiver corresponding to receiver information of the video message for transmitting the video message generated by the message transmitting terminal;
A billing / distribution processor that adds a service fee according to the video message transmission and distributes the fee to the broadcast server that has performed the video message transmission; And
And a content manager which manages a video message from the message transmission terminal and transmits a video message in response to a request from a broadcast server.

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