FR2897997A1 - Interactive television service direct broadcast system for telecasting video images, has terminals connected with reception server connected with conference and computing servers, where each server connects terminals connected to server - Google Patents

Abstract

The system has terminals (10, 12, 14) e.g. videophone, connected with a reception server (34) via Internet network (16). The server is connected with conference and computing servers (36, 38, 40). Each server allows to exchange media stream and connects the terminals connected to the server. A producer terminal (42) is connected to an input line of a mixing table (44) via a signal detect input (SDI)/phase alternating line (PAL) converter (46) that converts PAL format video stream into SDI format compatible with the table, where the stream is obtained by video capture of the terminals. Independent claims are also included for the following: (1) a method for direct broadcast of an interactive television service (2) a computer program comprising program code instructions for the execution of a method for direct broadcast of an interactive television service, when the program is executed on an interactive television service broadcast system.

Description

i

  FIELD OF THE INVENTION The present invention relates to the field of television broadcasting services and the production of television programs and video-telephony services and relates more particularly a network ro architecture for the management of interactive television.

  Background Art Interactivity in broadcast services is not new and is especially present in radio broadcasts. However, it is recently, this interactivity appears at the level of certain television shows with the insertion of SMS messages sent by the viewers or more recently with the live intervention in a television program of viewers present in front of their videophones. Figure 2 illustrates the network architecture for such a videoconferencing intervention. Each participant must have a terminal allowing a video shooting, for example a videophone 10 for the speaker N 1, a personal computer 12 equipped with a camera such as a webcam type camera and a videophone software for the intervener N 2 and a cellular telephone 14 provided with a video sensor and a mobile video telephony software for the intervener N 3, each of these terminals being connected to the Internet network 16 directly or via a gateway 18 from a third generation wireless communication network 20, of the UMTS, Edge or equivalent type.

  At the television studio level, there is provided a plurality of work stations 22A to 22C each managed by a facilitator and connected directly or via a local network as shown in the Internet network 16, the number of stations being a function of the maximum number of stations. stakeholders considered and each speaker connecting videoconferencing to a given workstation. Thus, in the illustrated example, no more than three speakers can intervene simultaneously in the television broadcast. Each workstation must be wired manually by the animator responsible for its management by means of a connector 26A to 26C to ro an input line of a mixer 24 via a PAL / SDI converter 28A to 28C. The Visio stream is encoded in H263, H263 +, or H264. This stream is captured from the workstation in PAL format. The PAL stream is then converted to SDI to be compatible with the mixer. PAL / SDI conversion is a solution, but other intermediate formats are also conceivable. The mixer also has an input line connected to the television camera 30 arranged in a tray for the presenter's shooting and which directly provides a signal in SDI format, and an output line for broadcasting to the viewers on their televisions 32 a mosaic television image composed of this image tray and that of the speakers, this output line is also also connected to the PAL / SDI converters for returning the mosaic image to each of the speakers via the stations of job. Of course, the presenter and the producer of the program which is on the telephone line is one of the following: This architecture has many disadvantages. First, the number of speakers is limited by the number of workstations and converters available, and then, when a speaker is ready to go on the air, it is necessary to manually wire the mixer. Finally, when the video quality of a speaker is degraded and for example is no longer sufficient to allow it to remain on the air, it is not possible to replace it without delay because it is then necessary to interrupt authority the video link with this speaker (following the phone call from the director to the presenter in charge of the speaker) which poses a problem, before launching a new video capture with a new speaker io Object and definition of the The invention nvention proposes a solution that does not have the aforementioned drawbacks. According to the invention, there is provided a system for direct broadcasting of an interactive television program comprising a plurality of terminals in connection with a host server via a communication network and intended to be used by speakers at this point. transmission, means of supervision in connection with the host server and intended to be used by a director of the television program to receive audio / video data streams sent by the terminals of the speakers and in liaison with them. image-taking means, for receiving a television image of a presenter of the television program, the supervisory means including means for generating a mosaic image from this image of the presenter and at least one of the 25 audio / video data stream and to control the diffusion to I (SI) r-1-arel 11PIP \, l ', l () r; 1111 P1 .Di 1, -Ilt) el11' L) I (-file ellc3l elfecrue the help of These means of supervision and without any manual connection / disconnection.

  The supervision means furthermore comprise means for sending to each of the speakers an audioJvideo stream coming from the director and means for establishing a multipoint videoconferencing between the director and all the speakers or only a part of them and means for transferring speakers from one conference to another. Thus, the director can manage all the speakers and decide at any time to replace one speaker with another. The supervision means furthermore comprise a data base comprising at least the following data: stakeholder profiles, connected speakers, ongoing conferences, server reports. Thus, the director is constantly aware of the state of the system. Said host server comprises a counter able to periodically transfer speakers from one conference to another. Thus, it is possible to automatically put the speakers in touch with each other for a certain period of time (video dating). The invention also relates to a method for direct broadcasting of an interactive television program in which a mosaic image is broadcast from an image of a presenter of this program and at least one audio / audio data stream. video from a terminal of a speaker on this broadcast, characterized in that said at least one stream of audio / video data is delivered by supervision means connected to said terminal of a speaker via a [ 1Hp, which rcc, 11t '-) iItHge, 10iiic f. In a particular embodiment, a multipoint videoconference is established between the director and all or only a portion of the speakers.

  Thus, the director may wish to create different conferences between speakers. The invention also relates to a computer program comprising program code instructions for the execution of the aforementioned method when it is executed on the broadcasting system defined above.

  BRIEF DESCRIPTION OF THE DRAWINGS The features and advantages of the present invention will become more apparent from the following description, given by way of non-limiting indication, with reference to the accompanying drawings, in which: FIG. 1 shows an exemplary network architecture of FIG. an interactive television broadcasting system according to the invention, and - Figure 2 illustrates a network architecture of the prior art. Detailed description of embodiment (s). FIG. 1 shows, according to the invention, an example of a network architecture that makes it possible to broadcast video images of external speakers during a live television broadcast. As before, each speaker must have a terminal allowing a video shooting of himself, for example a videophone 10 for the speaker N 1, a personal computer 12 equipped with a camera such as a webcam-type camera and video telephony software for the intervener N 2 and a cellular telephone 14 provided with a video sensor and mobile video telephony software for the transmission of the video signal. ILL pa5bei JtplJl ') at least third generation wireless communication network 20, YP e UMTS, Edge or equivalent.

  According to the invention, these terminals are connected to a first computer server 34, or host server, via the Internet network 16 and with a single terminal 42 available to the director of the program. This first server is in relation with at least a second computer server, or conference server 36. In our exemplary embodiment, according to the data flow exchanged as will be explained further, two other computer servers 38, 40 are also provided. in liaison with the host server 34. Each conference server is a multipoint videoconferencing bridge for exchanging media streams and connecting the different terminals connected to this bridge. The director's terminal 42 is connected to an input line of a mixer 44 via a PAL / SDI converter 46. The converter converts into a SDI format compatible with the mixing console the video stream in PAL format derived from the video capture by the terminal of the images 15 taken by the video terminals of the speakers and retransmitted by the computer servers. The mixer has as before an input line connected to the television camera 30 arranged in a tray for shooting the presenter and which also provides the SDI format signal to the director's terminal 42 and an output line for the broadcasting to television viewers on their televisions 32 of a mosaic television image composed of this image plateau and that of the speakers. As before, the presenter obviously has a control screen (not shown). With the invention, each speaker is no longer put in contact with a specific workstation managed by a facilitator, as in Vert directeme (Ti, veui ccueo, auquei ueresse dudloivideo Ssu I his terminal 10, 12, 14 and in! menus from which he can freely navigate (for example to choose a program in which he wishes to intervene 30 or to get in touch with other speakers).

  routing the streams of all the speakers to one or the other of the conference servers 36, 38, 40 and the terminal of the director 42 according to the request that it has expressed at a management interface of this terminal. Each of these conference servers can for example be assigned to the management of communications between a particular group of stakeholders (so-called conference) with respect to all connected speakers. Within each conference, the speakers can be invited, ejected or transferred from one conference to another according to the wishes of the director expressed at the level of the control interface. Io Indeed, with the architecture of the invention, it is made available to the director of the television program a set of media streams (audio / video) allowing him to manage speakers in a multi-point videoconferencing mode. The multipoint videoconferencing allows multiple speakers to communicate simultaneously in audio and video, each speaker sending his audio / video stream to the videoconferencing bridge via the host server which in return gives them a multiplex of audio streams and a mosaic image of the streams video. Thus, each speaker sends and receives only one media stream as in a point-to-point communication of the prior art.

From the control interface accessible on the terminal 42, the director can view all the speakers connected. He can converse with each of the online stakeholders. The director then selects the speakers likely to be on the air and transfers them with him, from a so-called waiting room conference managed by the server 36, in a so-called IPrPcu Uàr 1 antenna preparation conference; it-rEi, prupu ~ llllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllll On the decision of the director, one or more of these selected speakers candidates for the passage on the antenna can be transferred to a so-called Live conference managed by the last server 40. It is the content of this last conference which is sent to the mixer 44 to be embedded in the TV stream sent to the viewers. The director thus has an interface for controlling the types of conferences mentioned above. At any time, one or more speakers can be transferred from one conference to another. The director can thus choose, in real time, to substitute any speaker of the conference on the air or "Live" by another present in one or more off-air conferences. He no longer has to call on the manual animators to unmount a speaker. The use of the home server 34 solves the technical problem of transferring calls from one conference to another without cutting the communication. Indeed, the director's terminal, all potential speakers and all videoconferences 15 via the conference servers is connected to the host server. A videoconference is thus considered as a terminal, with a call number, and can therefore be contacted in the same way as another terminal. The main difference from a conventional terminal is that a videoconference can be called by several terminals simultaneously. The use of such a server makes it possible to provide a tromboning function. The home server performs the linking and call transfer with the terminals by calling both a speaker of the speaker, a conference server and the terminal of the director, then the home server route fa signafisatiqn between the terminal d [! This is the case in which the home server closes the media channels and calls another conference server. The home server then routes the signaling via the other conference server, which enables the restoration of the media channels The home server is simultaneously connected to all the conferences and with all the videophone speakers including the director. director of the pilot program and this server which allows the transfer of audio and video streams from one conference to another, without disconnecting the speakers.The presence of a database at the terminal level also allows him to manage the state of the servers (error message, history of the conferences) and to take account, for example, of the profiles of the speakers stored beforehand.Of course, the embodiment described above can not be limiting and in particular the number of conference servers could be different, for example limited to one or more than three. Similarly, it can be envisaged an automatic relationship between the speakers themselves for a set period of time (video dating mode), each conference corresponding to a meeting room and the host server ensuring by means of a counter a periodic transfer from one room to another every x minutes.

Claims (4)

  A live broadcast system of an interactive television program comprising a plurality of terminals (10, 12, 14) in connection with a home server (34) via a communication network (16, 18, 20) and intended to be used by speakers on this broadcast, supervision means (36 - 46) in connection with the host server and intended to be used by a producer of the television program to receive o audio data streams / video sent by the terminals of the speakers and in liaison, with means of shooting (30), for receiving a television image of a presenter of the television program, the means of supervision comprising means (42 - 46) for generating a mosaic image from this presenter image and at least one of the audio / video data streams and for controlling the broadcast to viewers of the television image thus produced.   2. System according to claim 1, characterized in that the supervision means further comprises means (36 - 42) for sending to each speaker an audio / video stream from the director.   3. System according to claim 1, characterized in that the supervision means further comprise means (36 - 42) for establishing a multipoint videoconferencing between the director and all the interveners or only part of them and means to transfer speakers from one conference to another. The system of claim 1 further characterized in that the monitoring means further comprise a database (42) comprising at least the following data: stakeholder profiles, connected speakers, ongoing conferences, server reports. . System according to claim 1, characterized in that to perform an automatic linking of the speakers between them for a predetermined period of time, said host server includes a counter able to periodically transfer speakers from one conference to another. 6. A method for broadcasting an interactive television program in live, in which a mosaic image is broadcast from an image of a presenter of this program and at least one audio / video data stream originating from a terminal of a speaker on this issue, characterized in that said at least one stream of audio / video data is delivered by supervision means connected to said terminal of a speaker via a host server which provides the routing said at least one audio / video data stream. 7. Method according to claim 6, characterized in that there is established a multipoint videoconference between the director and all stakeholders or only a portion of them. A computer program comprising program code instructions for performing the method according to claims 6 or 7 when executed on the broadcast system according to any one of claims 1 to 5.