FR3029724A1 - MANAGING A CONNECTION FROM A PLURALITY OF TERMINALS TO A CONFERENCE - Google Patents

Abstract

The invention relates to a connection management method of a plurality of terminals (TA, TB, TC, TD) to a conference and a method of connecting a terminal to the conference. According to the invention, the management method is adapted to receive connection requests (DC1, DC2, DC3, DC4) to the conference and to determine a group of at least one interconnection device for establishing the conference between the terminals. , said group not comprising a first type interconnection device (MT) configured to encode a multimedia stream received after decoding this stream, and comprising at least one device (SW1, SW2) configured to retransmit a multimedia stream received without decoding this flow, if all the terminals has the same predefined set of flow coding / decoding capabilities, said group comprising a first type interconnection device (MT), otherwise the invention also relates to a management device (SC ), respectively an interconnection device (SW1) implementing the management method, respectively the connection method.

Description

Managing a connection of a plurality of terminals to a conference. The invention relates to the field of communications. More specifically, the invention relates to the implementation of communication services, such as for example a conference service or a voice over IP service (for "Internet Protocol"). Known conference services between terminals are based on the use of a conference platform, also called a conference bridge. During a prior reservation of a conference, a user logs on to the conference service and obtains a conference ID. The user then communicates the conference ID to the users invited to the conference. The conference ID is typically a connection number to an interconnect device, generally referred to as a "conference bridge," or a connection number to a server that directs the redirection of the connection to a conference bridge. It can also be completed with a password. At the scheduled time of the conference, each participant connects to the conference bridge using the conference ID. The conference bridge manages in the network, the flows to terminals connected to the conference. In particular, each terminal sends a stream to the bridge. The bridge decodes each stream received, aggregates the decoded streams and transmits to each terminal connected to the conference, a single coded stream corresponding to aggregated streams received from other connected terminals. The contribution of the terminal to which the conference bridge retransmits the stream is omitted. Thus, if N terminals are connected to the conference bridge, each of the N terminals sends a stream to the conference bridge and receives therefrom an aggregated stream of N-1 other connected terminals. This system requires significant resources at the level of the conference bridge, or more generally at the network equipment in charge of decoding the streams received, the aggregation and coding of the streams to be transmitted and the transmission of the streams. One of the aims of the invention is to remedy the shortcomings / disadvantages of the state of the art and / or to make improvements thereto. The invention improves the situation.

For this purpose, the invention relates to a connection management method of a plurality of terminals to a conference comprising the following steps implemented by a management device: - receiving a plurality of connection requests to said conference from said plurality of terminals; determining a group of at least one interconnection device to be interconnected in order to establish said conference between said terminals, said group not comprising any interconnection device of the first type capable of receiving at least one said terminal, at least one multimedia stream and configured to encode a said multimedia stream received after decoding said stream, and comprising at least one second type device configured to retransmit to at least one said terminal at least one multimedia stream received without decoding said at least one stream received, if all the terminals of said plurality have the same predefined set of multimedia stream encoding / decoding capabilities, said group including a said first type interconnection device (MT), otherwise. A conference is for example a videoconference, an audio conference or an audio-video type conference. Connection requests from multiple user terminals wishing to participate in the same conference are received by a management device. In the case where all the terminals have the same predefined set of transcoding processing capabilities of the transmitted and / or received multimedia streams, an interconnecting device retransmitting the received streams without decoding and re-encoding them may be used. . It is not necessary in this case to use an interconnection device decoding the streams it receives and encoding the streams it sends to establish the connection between the different terminals. In other words, it is not necessary to use in this case, an interconnection device adapted to receive at least one terminal at least one multimedia stream in a first coding format and configured to encode in another encoding format, a multimedia stream received after decoding this stream. In the opposite case, that is to say if the terminals have heterogeneous capabilities in terms of processing multimedia streams or in other words, if a terminal of the plurality is not able to decode a stream received from 'Another terminal of the plurality, it is necessary to operate on the streams received before retransmission and an interconnection device able to receive at least one terminal at least one multimedia stream in a first coding format and configured to encode in another encoding format, a multimedia stream received after decoding this stream is then necessary. Thus, the method of the invention makes it possible to limit the use of interconnection devices using a method of encoding / decoding multimedia streams to conferences involving terminals having processing capabilities in transcoding; say in terms of coding and decoding, heterogeneous flows. The capabilities of a terminal in terms of coding / decoding are defined for example by one or more codecs, multi-stream management capabilities, a particular stream congestion profile, etc. According to a particular embodiment of the management method. said group comprises a second type of interconnection device if at least one terminal for which a connection request has been received has a predefined set of multimedia stream encoding / decoding capabilities previously registered for said device. interconnection. A second type of interconnection device capable of receiving at least one multimedia stream and retransmitting said at least one multimedia stream received without decoding said stream is used if at least one terminal has a predefined set of stream coding / decoding capabilities. multimedia. In the case where several terminals having the same predefined set of multimedia stream encoding / decoding capabilities have transmitted a connection request, the use of such a device saves resources in terms of stream coding and decoding. This in particular makes it possible to lighten the load of the interconnection device of the first type if such a device is required for the conference. In the case where a single terminal has, at the time of its connection, a predefined set of multimedia stream encoding / decoding capabilities, the use of such a device avoids modifying the links established when a new connection is connected. terminal having this set of capabilities. According to a particular embodiment of the management method, the step of determining said group comprises, following the reception of a connection request from a said terminal, the steps of: interconnection among a plurality of interconnection devices according to the coding / decoding capabilities of said terminal, said plurality of interconnection devices comprising at least one interconnection device of the first type and at least one interconnection device of the second type ; control of the redirection of said connection request to said selected interconnection device; adding said selected interconnection device to said group if said device is not a device of said group; adding an interconnection device of the first type of the plurality of devices to said group if said group does not comprise a first type interconnection device and if said group comprises at least two interconnection devices of the second type. The group of interconnection devices needed for a conference is determined little by little as the reception of the connection requests from the terminals seeking to participate in the conference. Thus, only the interconnection devices necessary for the conference are included in the group of interconnection devices.

An interconnection device of the first type is necessary when at least two interconnecting devices of the second type belong to the group. Indeed, the terminal or terminals connected to a first interconnection device of the second type do not have the same set of coding / decoding capabilities as the terminal or terminals connected to a second interconnection device, a decoding and a coding of the flows exchanged must be performed. The step of adding a first type interconnection device is performed after the step 5 of adding the selected interconnection device. According to a particular embodiment, the management method comprises a step of transmitting an address of a first type interconnection device of said group to at least one interconnection device of the second type of said group.

The address of a first type of interconnection device received by a second type interconnection device enables this second type of interconnection device to establish a communication link with the first type interconnection device. for which he received an address. The establishment of communication links between the interconnection devices allows the exchange of flows between the terminals involved in the conference.

The invention also relates to a method for connecting at least one terminal to a conference comprising the following steps implemented by a second type of interconnection device configured to retransmit at least one terminal at least one multimedia stream. received without decoding said at least one received stream: receiving at least one connection request transmitted by said at least one terminal and redirected by a management device; receiving an address of an interconnection device of the first type; establishing a communication link with said first type device by using said received address, said link enables the transmission of at least one multimedia stream. The second type of interconnection device receives at least one connection request from a management device, said at least one connection request being sent by a terminal requesting to participate in the conference and being redirected by a management device . The receipt of this connection request allows the connection of the terminal 30 with the interconnection device, that is to say the establishment of a communication link for the exchange of multimedia streams between the terminal and the device. interconnection of the second type. Receiving an address of a first type device allows the second type device to establish a communication link between the first type interconnection device and the second type interconnection device. It is thus possible for the terminals connected to the interconnection device of the second type to exchange media streams with terminals having different coding / decoding capabilities. According to a particular embodiment of the connection method, the establishment step comprises the establishment of at least one connection for transmitting at least one stream of the second type interconnection device to the device. interconnection of first type, the number of connections being less than the number of terminals connected to said interconnection device of the second type and wherein the method comprises a step of selecting, at a first given moment of flow to be transmitted among the streams received from terminals connected to said interconnection device of the second type. According to a particular embodiment of the connection method, the selection step is reiterated at at least a second given instant. In the case where the number of link connections established to transmit flows from the second type of interconnection device to the first type interconnection device is greater than or equal to the number of connected terminals, the second interconnection device type retransfers each stream received via an established connection.

In the case where this number of established connections is less than the number of terminals connected, the second type of interconnection device chooses at a first moment among the streams received the streams it retransmits. The configuration can be static. Some terminals then participate in the conference only in reception.

The configuration can be dynamic. The chosen streams vary over time according to a selection criterion. A selection criterion consists, for example, in retaining, at a given instant, the terminals transmitting at this given instant a flow towards the interconnection device. In the case where the number of link connections established to transmit flows from the first type interconnection device to the second type interconnection device is greater than or equal to the number of terminals connected to the first interconnection device. type, this interconnection device of the first type retransfers each stream received via an established connection. In the case where the number of connections established to transmit flows from the first type interconnection device to the second type interconnection device is less than the number of connected terminals, the first type interconnection device chooses from the flows received at a first instant the streams it retransmits. The configuration can be static. The configuration can be dynamic. The chosen streams vary over time according to a selection criterion. A selection criterion consists, for example, in retaining, at a given instant, the terminals transmitting a stream towards the interconnection device. According to one characteristic of this embodiment, the method comprises a step of establishing a signaling link between said second type interconnection device and said first type interconnection device. to transmit information between two interconnection devices. This transmitted information is for example particular events. For example, an interconnect device may inform the other interconnect device of the receipt of a new connection request from a new terminal or the disconnection of a terminal. The received information may for example be included by the interconnection device in the form of text in a video stream thus allowing the display of information at the terminal receiving said stream. The invention also relates to a management device comprising a module for receiving a plurality of conference connection requests from a plurality of terminals and a module for determining a group of at least one device. Interconnection interconnection to establish said conference between said terminals, said group not including a first type of interconnection device adapted to receive from said at least one terminal, at least one multimedia stream and configured to encode a said stream multimedia receiver received after decoding said stream, and comprising at least one second type device configured to retransmit to at least one said terminal at least one multimedia stream received without decoding said at least one stream received, if all the terminals of said plurality has a same predefined set of multimedia stream encoding / decoding capabilities, said group including a said network interconnection device. first type, otherwise.

The invention also relates to an interconnection device comprising retransmission means configured to retransmit at least one terminal of a plurality of terminals at least one multimedia stream received from at least one said terminal without decoding said at least one a received stream. This interconnection device also comprises: a module for receiving at least one connection request transmitted by at least one terminal and redirected by a management device; a communication module for receiving an address of a device; first type of interconnection, and - a module for establishing a communication link with said first type device by using said received address. The invention also relates to a system comprising a management device and a group of at least one interconnection device to be interconnected to establish a conference between said terminals, said group not comprising an interconnection device. of first type capable of receiving at least one said terminal, at least one multimedia stream and configured to encode a said multimedia stream received after decoding said stream, and comprising at least one second type device configured to retransmit to at least one said terminal at least one multimedia stream received without decoding said at least one received stream, if all the terminals of said plurality have a same predefined set of multimedia stream encoding / decoding capabilities, said group comprising a said network interconnection device; first type, otherwise. According to a preferred implementation, the different steps of the conference management method respectively of the conference establishment method according to the invention are implemented by software or computer program. The invention thus relates to a software or program that can be executed by a computer or a data processor, this software / program comprising instructions for controlling the execution of the steps of a management method or a method connection. These instructions are intended to be stored in a memory of a computing device, loaded and then executed by a processor of this computing device. This software / program can use any programming language, and be in the form of source code, object code, or intermediate code between source code and object code, such as in a partially compiled form, or in any form what other form is desirable. The computing device can be implemented by one or more physically distinct machines and generally presents the architecture of a computer, including components of such an architecture: data memory (s), processor (s), bus of communication, hardware interface (s) for connecting this computing device to a network or other equipment, user interface (s), etc. The invention also relates to an information carrier readable by a data processor, and comprising instructions of a program as mentioned above. The information carrier may be any entity or device capable of storing the program. Other features and advantages of the present invention will appear in the following description of embodiments given by way of non-limiting examples, with reference to FIGS. attached drawings, in which: - Figure 1 is a diagram illustrating a system according to one embodiment of the invention, 2b and 2b show respectively a first part and a second part of a flowchart illustrating the various steps of a management method and a connection method according to a first embodiment of the invention, FIG. 3 is a first example of a graph illustrating communication links 5 established in connection with the first embodiment of the invention. embodiment, - Figure 4 is a flowchart illustrating the different steps of a management method and a connection method according to a two Embodiment of the invention, FIG. 5 is a second example of a graph illustrating communication links established in connection with the second embodiment, FIG. 6 is a block diagram representing a server capable of carrying out the functions of FIG. Steps of a management method according to an embodiment of the invention, - Figure 7 is a block diagram showing an interconnection device adapted to perform the steps of a connection method according to an embodiment of the invention. invention.

The invention is implemented by means of software and / or hardware components. In this context, the term "module" may correspond in this document to a software component, to a hardware component or to a set of hardware and / or software components, capable of implementing a function or set of functions, as described below for the module concerned.

A software component corresponds to one or more computer programs, one or more subroutines of a program, or more generally to any element of a program or software. Such software component is stored in memory then loaded and executed by a data processor of a physical entity (terminal, server, gateway, set-topbox, router, etc.) and is able to access the hardware resources of this physical entity 25 (memories, recording media, communication bus, input / output electronic boards, user interfaces, etc.). In the same way, a material component corresponds to any element of a material set (or hardware). It may be a hardware component that is programmable or has an integrated processor for running software, for example an integrated circuit, a smart card, an electronic card for executing a firmware, etc. . A first embodiment of a method for managing a conference and a conference connection method implemented in the SYS system will now be described with reference to FIGS. 1 to 4.

Referring to FIG. 1, a system SYS comprises a conference management device SC, a plurality of interconnection devices SW1, SW2, MT and a plurality of terminals, for example five terminals TA, TB, TC, TD and TE able to communicate via a communication network. The interconnection devices SW1, SW2 and MT are devices capable of simultaneously establishing several communication links with several terminals. They are known as the MCU (Multipoint Control Unit). The interconnection device MT is a device able to receive one or more streams from one or more terminals, for example N streams from N terminals and retransmit to at least one terminal at least one multimedia stream received after implementation implementation of a mixing operation and / or transcoding of said at least one stream.

Such a device is known as MCU of the "mixer-translator" type and is for example described in the Request for Comment (RFC) document 3550 entitled "RTP: A Transport Protocol for Real-Time Applications". July 2003 and published by the Internet Engineering Task Force (IETF). The interconnection device MT represents an interconnection device of the first type within the meaning of the invention. The interconnection devices SW1 and SW2 are devices able to receive one or more streams coming from one or more terminals, for example N streams coming from N terminals and to retransmit to at least one terminal at least one multimedia stream received without implementing a mixing and / or transcoding operation.

In other words, the interconnection devices SW1 and SW2 do not perform any processing on the content of the received multimedia streams. Such devices are known as switching type MCUs and are for example described in RFC 5117 entitled "RTP Topologies" of January 2008 and published by the IETF.

The interconnection devices SW1 and SW2 represent interconnection devices of the second type within the meaning of the invention. Each terminal TA, TB, TC, TD and TE of the plurality of terminals is a device able to access a communication network. It is able to send and receive one or more streams of multimedia data.

A multimedia data stream, also referred to as a multimedia stream, is in the embodiment described an audio-video stream. Alternatively, a multimedia data stream is a video stream or an audio stream. The terminal TA and the terminal TB are for example PC type computers (for "Personal Computer") able respectively to execute a web-based communication application configured to send and receive multimedia streams in real time according to a mechanism called webRTC (for "Real Time Web Communication"). The terminal TC is for example a dedicated videoconferencing terminal capable of communicating via the communication protocol H323 defined by the International Telecommunication Union (ITU-T). The TD terminal is a dedicated videoconferencing terminal capable of communicating via the SIP ("Session Initiation Protocol") protocol, for example standardized by the IETF and described in the Request for Comment (RFC) document 3261. The TE terminal is a terminal of a "Telepresence" room. Such a terminal is for example defined in the document "Telepresence Interoperability Protocol (TIP) Version 8.0" of the IMTC (International Multimedia Telecommunications Consortium).

The management device SC is an equipment, typically a server, able to access a communication network. It is configured to receive requests for conference connections from terminals and to redirect received requests to an interconnect device.

A first embodiment of a management method and a connection method, implemented in the SYS system for a conference CF, will now be described with reference to FIGS. 2a, 2b and 3. FIGS. 2b illustrate, on the one hand, the steps of a management method implemented by the conference management device SC and, on the other hand, the steps of a method of connection to a conference implemented by the device of interconnection of second type SW1. During a prior step E0, a set of terminal capabilities relating to the encoding / decoding of multimedia streams is predefined for each interconnection device of the second type SW1 and SW2. More specifically, a set of capabilities data defining a set of terminal capabilities relating to multimedia stream encoding / decoding or for determining the capabilities of a terminal relating to the encoding / decoding of multimedia streams is predefined and then recorded for each device. interconnection of second type SW1 and SW2 in a memory M accessible by the management device SC. The memory M is a memory of the management device SC or a memory external to the management device SC and accessible thereto for example via a communications link. Each set of predefined capacity data is for example registered in association with an identifier of a second type of interconnection device SW1, SW2. For example, a set of capacity data contains a condition on an IP ("Internet Protocol") identifier of the source of the connection request, ie an IP identifier linked to the terminal having transmitted the connection request. . For example, the identifier is of the form 10, 159, xxx, xxx.

For example, a capacity data set contains signaling information, one or more codec identifiers, or a list of terminal identifiers. In the described embodiment, a first set of ED1 capabilities data contains a condition C1 defined by "the connection message is issued by a communication application instance via a web browser of a terminal" and is registered with an identifier IS1 of the interconnection device SW1. The condition Cl makes it possible to target all the terminals requesting to join a conference from an instance of an application via a web browser. In known manner, these applications use the WebRTC protocol for which the codec used is always the same. Thus, these applications can communicate with each other without requiring coding and decoding of the streams exchanged by an intermediate device. In other words, the terminals complying with the condition C1 present the same set EC1 of multimedia stream encoding / decoding capabilities. A second set of ED2 capability data for targeting a "Telepresence" type conference terminal is registered in association with an IS2 identifier of the interconnection device SW2. Each set of capacity data contains for example a single characteristic or condition. Alternatively, one or more of the capability data sets contains several features. These characteristics are then implicitly or explicitly linked by Boolean operators, for example the "AND" and "OR" operators. Each set of capacity data makes it possible to define the capacity of a terminal in terms of processing of multimedia streams transmitted or received by this terminal, and in particular the type (s) of coding / decoding supported by this terminal. Terminal capabilities may be defined by a type of protocol, a type of codec, a type of encoding / decoding format or a type of terminal. For example, a communication application identifier implemented by a terminal may define the type of encoding / decoding format used. The EO step is for example performed during a reservation phase of the conference. In the exemplary embodiment described where each set of capacity data is registered in association with an interconnect device identifier, the plurality of interconnect devices is predetermined for a conference. In this case, the predefined capacity data sets are, for example, also recorded in association with an identifier of the conference. Alternatively, the capacity data sets are defined for several conferences, for example all conferences established by the management device SC. In an alternative embodiment, each capacity data set is registered independently of an interconnect device identifier and an interconnect device is selected from a plurality of available interconnect devices upon receipt of an interconnect device identifier. a connection request from a first terminal having a set of capabilities defined by a stored capacity data set. Also, in step E0, a group G of interconnection devices is initialized to "empty set", i.e. it does not contain any interconnection device. During a step E2, following an action by a user of a terminal, for example the terminal TA, to participate in a conference CF, the terminal TA sends a connection request DC1 to the conference CF towards the device SC management. The action of the user is for example an entry of a telephone number and an identifier of the conference CF. Typically, the connection request DC1 contains a telephone number or a pair (telephone number, conference identifier) or an address of the management device SC or a server configured to redirect the connection request to the communication device. SC management. The connection request DC1 is received by the management device SC during a step E4.

In a step E6, the management device SC determines whether the terminal TA has the capabilities of one of the sets of capabilities EC1 or EC2. This determination is made by extracting one or more data from the connection request and / or by analyzing the connection request DC1, for example to determine the connection protocol used.

For example, the management device SC determines that the terminal TA presents the set of capabilities EC1 defined by the first set of capacity data ED1 recorded in association with the identifier IS1 of the second type of interconnection device SW1. Step E6 is then followed by a step E8 in which the interconnection device SW1 is added to the group G of interconnection devices.

For example, an identifier of the interconnection device SW1 is registered in association with an identifier of the group G or in association with an identifier of the conference in a memory of the management device SC. During a step E10, the management device SC controls the redirection of the connection request DC1 to the interconnection device SW1.

Step El0 is followed by a step E12 in which the redirected DC1 connection request is received by the interconnection device SW1. Following this redirection, a communication link Ll allowing the transport of multimedia streams, that is to say the reception of at least one multimedia stream and the transmission of at least one multimedia stream is established between the terminal TA and the interconnection device SW1.

In a step E22, a second terminal, for example the terminal TB, transmits a connection request DC2 to the conference CF to the management device SC. The connection request DC2 is received by the management device SC during a step E24. Step E24 is followed by a step E26 in which the management device SC determines whether the terminal TB has the capabilities of one of the sets of capabilities EC1 or EC2. Step E26 is similar to step E6 described above. For example, the management device SC determines that the terminal TB has the set of capacitors EC1 defined by the first set of capacity data ED1 registered in association with the identifier IS1 of the second type interconnection device SW1. In a step E28, the management device SC determines that the device SW1 already belongs to the group G. During a step E30, the management device SC controls the redirection of the connection request DC2 to the device. interconnection of second type SW1. Step E30 is followed by a step E32 in which the redirected DC2 connection request is received by the interconnection device SW1. Following this redirection, a communication link L2 for the transport of multimedia streams is established between the terminal TB and the interconnection device SW1.

It should be noted that in this case, the conference CF can be engaged between the terminals TA and TB. During a step E42, a third terminal, for example the terminal TC, sends a connection request DC3 to the conference CF. The connection request DC3 is received by the management device SC during a step E44.

Step E44 is followed by a step E46 in which the management device SC determines whether or not the terminal TC has the capabilities of one of the sets of capabilities EC1 or EC2. Since the terminal TC has neither the set of capabilities EC1 nor the set of capabilities EC2, step E46 is followed by a step E48 in which the management device SC controls the redirection of the connection request DC3 to an interconnection device of the first type, typically the MT interconnection device. The step E48 is followed by a step E50 during which the redirected DC3 connection request is received by the interconnection device MT. Following this redirection, an L3 communication link for the transport of multimedia streams is established between the terminal TC and the interconnection device MT.

Step E48 is then followed by a step E52 in which the interconnection device MT is added to the group G of interconnection devices by the management device SC. For example, an identifier of the interconnection device MT is registered in association with an identifier of the group G or in association with an identifier of the conference in a memory of the management device SC.

During a step E62, a fourth terminal, for example the terminal TD sends a connection request DC4 to the conference CF. The DC4 connection request is received by the management device SC during a step E64. The step E64 is followed by a step E66 in which the management device SC determines whether the terminal TD has the capabilities of one of the sets of capabilities EC1 or EC2. Since the terminal TD has neither the set of capabilities EC1 nor the set of capabilities EC2, step E66 is followed by a step E68 in which the management device SC commands the redirection of the connection request DC4 to the interconnection device of the first type MT. The step E68 is followed by a step E70 during which the redirected DC4 connection request is received by the interconnection device MT. Following this redirection, a communication link L enabling the transport of multimedia streams is established between the terminal TD and the interconnection device MT. In a step E72, the management device SC determines that the interconnection device MT already belongs to the group G. FIG. 3 represents the communication links established between the equipment of the SYS system for the conference CF, and in particular the links L1 and L2 respectively established between the terminals TA and TB and the interconnection device SW1 as well as the links L3 and L4 respectively established between the terminals TC and TD and the interconnection device MT. In a step E74, the management device SC transmits to the interconnection devices of the second type of the group G, that is to say the interconnection device SW1 in the embodiment described, an NT notification message. comprising a connection AD address of the first type MT interconnection device. The step E74 is for example carried out on the initiative of the management device SC or in response to a request transmitted by the interconnection device of the second type SW1, after reception by this device SW1, of a first connection request. Step E74 is followed by a step E76 in which the notification message NT is received by the interconnection device SW1. Following receipt of the NT notification, in a step E78, the second type SW1 interconnection device G establishes a communication link LT with the first type device MT using the connection address AD of the first type MT device contained in the NT notification message.

The communication link LT allows the transmission of one or more media streams. Such a media stream is a stream emitted by the device SW1 or a stream received by this device SW1. Step E78 comprises in the embodiment described sub-steps E80 and E82. In the substep E80, the second type interconnection device SW1 establishes a signaling link LS between the first type interconnection device MT and the second type interconnection device SW1. The signaling link LS is a bidirectional link enabling the interconnection device of the first type MT and the interconnection device of the second type SW1 to exchange information. In particular, the signaling link LS enables the first type interconnection device MT and the second type interconnection device SW1 to negotiate the number and type of multimedia streams that will be transmitted or received via the communication link LT. The signaling link LS is a link of the communication link LT or a link other than the communication link LT. The signaling link LS is for example a SIP type link. Via the signaling link LS, the first type interconnection device MT and the second type interconnection device SW1 negotiate the number of connections to be established between them for conveying the multimedia streams exchanged during the conference CF. The number of connections to be established depends on the number of terminals connected to each of the two devices and the number of streams that each of the two devices can support. The substep E80 is followed by the substep E82 of establishing one or more CN connections for exchanging one or more media streams between the first type device MT and the second type device SW1. The number of connections established depends on the information exchanged via the signaling link LS during the substep E80. The number CNE of connections established for transmitting flows from the interconnection device SW1 to the interconnection device MT and the number CNR of connections 20 established for transmitting streams of the interconnection device MT to the interconnection device SW1 depends on the embodiment. For example, the number CNE is "2" and the number CNR is "1". In the case where the number CNE of connections established for transmitting flows of the second type interconnection device SW1 to the first type interconnection device MT 25 via the communication link LT is less than the number of terminals connected to the device SW1. , the device SW1 selects during a step E84 carried out at a given instant T1, the streams that it transmits on the link LT, via the established CNE connections, among all the streams it receives from the different terminals. For example, the streams transmitted via the link LT are the streams received from the last active terminals of the connected terminals, i.e. the terminals having most recently issued a stream portion. The step E84 for selecting the transmitted streams is repeated, for example periodically. The step E84 is for example repeated at a time T2 such that the time space between the instants T1 and T2 is a predefined value.

As an alternative, the streams are statically selected. For example, in the case where three terminals are connected and the number CNE of connections is equal to 2, the stream sent by a terminal is for example systematically retransmitted and the streams emitted by the other two terminals are emitted alternately. via the second connection. In the case where the number CNR of connections established for transmitting flows of the first type interconnection device MT to the second type interconnection device SW1 via the communication link LT is less than the number of terminals connected to the device MT , the MT device selects at a given instant T3, the streams it transmits on the link LT, via the established CNR connections, among all the streams it receives from the different terminals.

For example, the streams emitted by the MT device via the link LT are the streams received by the MT device from the last active terminals among the connected terminals, that is to say the terminals having most recently issued a stream portion. . The selection of the streams emitted by the interconnection device MT is reiterated, for example periodically.

It is for example reiterated at a time T4 such that the time space between the instants T1 and T2 is a predefined value. Alternatively, streams are selected statically. In a particular embodiment, the CNR number of connections established to transmit media streams transmitted by the MT device is equal to one. In this embodiment, the device SW1 is processed by the MT device as a conventional terminal in terms of mixing and encoding streams. FIG. 3 also illustrates the link LT established between the interconnection device SW1 and the interconnection device MT. The communication link LT illustrated in this figure comprises the signaling link LS, two multimedia streams emitted by the device SW1 to the device MT and a multimedia stream transmitted by the device MT to the device SW1. In the embodiment described, the signaling link LS also enables the device SW1 to signal to the MT device one or more events occurring at a terminal connected to the interconnection device SW1. It also allows the MT device to signal to the device SW1 one or more events. An event is for example a person who speaks, adds or withdraws a participant. The steps E0, E4 to E10, E24 to E30, E44 to E48, E52, E64 to E74 implemented by the management device SC, represent the steps of the management method. The steps E12, E32, E76 to E84 implemented by the interconnection device SW1 represent the steps of the connection method.

In the described embodiment, the communication link LT is adapted to carry several streams simultaneously. As an alternative, several communication links are established between the interconnection device SW1 and the interconnection device MT, each of the links established being adapted to carry a single stream.

A second embodiment of a management method and a connection method implemented in the SYS system for a CF2 conference will now be described with reference to FIGS. 4 and 5. FIG. firstly the steps of a management method implemented by the management device SC and secondly the steps of a connection method implemented by the interconnection device of the second type SW1. During a step S0, similar to the step E0, a first set of capacities EC1 and a second set EC2 are determined. During a step S2, similar to the step E2, the terminal TA sends a connection request DC5. at a CF2 conference.

The DC5 connection request is received by the management device SC in a step S4. In a step S6, similar to the step E6, the management device SC determines that the terminal TA has the set of capabilities EC1. Step S6 is then followed by a step S8 in which a group G2 of interconnection devices is initialized with the interconnection device SW1.

For example, an identifier of the device SW1 is registered in association with an identifier of the group G2 or in association with an identifier of the conference in a memory of the management device SC. During a step S10, similar to the step E10, the management device SC controls the redirection of the connection request DC5 to the device SW1. Step S10 is followed by a step S12 in which the redirected DC5 connection request is received by the interconnection device SW1. Following this redirection, an L5 communication link allowing the transport of multimedia streams, that is to say the reception of at least one multimedia stream and the transmission of at least one multimedia stream is established between the terminal TA and the interconnection device SW1.

In a step S22, the terminal TE sends a connection request DC6 to the conference CF2. The connection request DC3 is received by the management device SC during a step S24. Step S24 is followed by a step S26 in which the management device SC determines whether or not the terminal TE has the capabilities of one of the sets of capabilities EC1 or EC2.

For example, the management device SC determines that the terminal TC has the capabilities of the set of characteristics EC2. Step S26 is then followed by a step S28 in which the server SC determines that the second device SW2 does not belong to the group G2 and adds the second device SW2 to the group G2. For example, an identifier of the device SW2 is registered in association with an identifier of the group G or in association with an identifier of the conference in a memory of the conference server SC. Step S28 is followed by a step S30 in which the management device SC determines that the group G2 contains two interconnection devices of the second type while not containing a first type of interconnection device and adds a device interconnection of the first type, for example the MT device, to the group G2. In a step S32, the management device SC controls the redirection of the connection request DC6 to the device SW2. Step S32 is followed by a step S34 in which the redirected DC6 connection request is received by the MT interconnection device. Following this redirection, a communication link L6 for transporting multimedia streams is established between the TE terminal and the interconnection device SW2. In a step S36, the management device SC transmits to each of the second type devices of the group G2, that is to say on the one hand to the device SW1 and on the other hand to the device SW2, a message of NT2 notification comprising an AC connection address of the first type MT interconnection device. Step S36 is performed in response to a request transmitted by each first type device after receiving a connection request DC5 or DC6 or at the initiative of the management device SC. Upon receipt of the AC connection address of the first MT type interconnection device (steps S38), each second type device of the group G2 establishes a communication link with the first type MT device (steps S40). . More specifically, in the example described, a communication link L7 is established between the interconnection device SW1 and the interconnection device MT and a communication link L8 is established between the interconnection device SW2 and the device 30. MV interconnection The communication link L7, respectively the link L8, allows the transmission of one or more media streams. Such a media stream is a stream emitted by the device SW1, respectively SW2, or a stream received by this device SW1, respectively SW2.

Each step S40 comprises in particular a step of establishing a signaling link and one or more connections for exchanging one or more media streams with the first type device MT. Each of the steps S40 is similar to the step E78 described in connection with the first embodiment. FIG. 5 shows the communication links established between the equipment of the SYS system, and in particular the link L5 established between the terminal TA and the interconnection device SW1, the link L6 established between the terminals TE and the interconnection device SW2. as well as the link L7 established between the interconnection device SW1 and the interconnection device MT and the link L8 established between the interconnection device SW2 and the interconnection device MT. The steps SO, S4 to S10, S24 to S32, S36 implemented by the management device SC, 10 represent the steps of the management method. The steps S12, S38 and S40 implemented by the interconnection device SW1, represent the steps of a connection method. The steps S34, S38 and S40 implemented by the interconnection device SW2, also represent steps of a connection method.

According to an embodiment chosen and shown in FIG. 6, a management device implementing a management method according to the invention is, for example, an ORD equipment which comprises, in a known manner, notably a processing unit UT equipped with a microprocessor, a ROM type ROM or EEPROM, a RAM type RAM RAM. The ORD server may comprise in a conventional and non-exhaustive manner the following elements: a keyboard, a screen, a microphone, a speaker, a disk drive, a storage medium, etc. The ORD management device also comprises a module RDC receiving request of 25 connection requests and a DET determination module The RDC connection request receiving module is able to receive a plurality of conference connection requests from a plurality of terminals. The determination module DET is able to determine a group of at least one interconnection device to be interconnected to establish said conference between said terminals, said group not comprising a first type interconnection device (MT) able to receive at least one said terminal, at least one multimedia stream and configured to encode a said multimedia stream received after decoding said stream, and comprising at least one second type device (SW1, SW2) configured to retransmit to at least one said terminal at least one multimedia stream received without decoding said at least one received stream, if all the terminals of said plurality have the same predefined set of multimedia stream encoding / decoding capabilities, said group comprising a said first type of interconnection device (MT), otherwise. The memory MM comprises registers storing a computer program PG1 comprising program instructions adapted to implement a management method according to one embodiment of the invention. When powering on, the program PG1 stored in the memory MM is transferred into the random access memory which will then contain executable code and registers for storing the variables necessary for the implementation of a reception step of a plurality of conference connection requests from a plurality of terminals and a step of determining a group of at least one interconnecting device to be interconnected to establish said conference between said terminals, said group not including a first type interconnection device (MT) capable of receiving at least one said terminal, at least one multimedia stream and configured to encode a said multimedia stream received after decoding said stream, and comprising at least one device second type (SW1, SW2) configured to retransmit to at least one said terminal at least one multimedia stream received without decoding said at least one stream received, if all The terminals of said plurality have the same predefined set of multimedia stream encoding / decoding capabilities, said group comprising a said first type interconnection device (MT), otherwise. More generally, a means of storage, readable by a computer or by a microprocessor, integrated or not into the device, possibly removable, stores a program 20 implementing the steps of a management method according to the invention. According to an embodiment chosen and shown in FIG. 7, an interconnection device implementing a connection method according to the invention is, for example, an equipment SW which comprises, in a known manner, in particular a processing unit UT1 equipped with a microprocessor, a ROM type ROM2 or EEPROM ROM, RAM type RAM RAM2. The interconnection device SW represents an interconnection device of the second type within the meaning of the invention. The interconnection device SW is configured to retransmit to at least one terminal at least one multimedia stream received without decoding said at least one received stream. The interconnection device SW also comprises a first communication module CM1, a second communication module CM2 and an establishment module ETL connections. The first communication module CM1 is able to receive at least one connection request sent by at least one terminal and redirected by a management device. The second CM2 communication module is able to receive an address of a first type interconnection device. The ETL link establishment module is able to establish at least one communication link with said first type interconnection device by using said received address. The memory MM2 comprises registers storing a computer program PG2 comprising program instructions adapted to implement a connection method according to one embodiment of the invention. When powering on, the program PG2 stored in the memory MM2 is transferred into the RAM which will then contain executable code and registers for storing the variables necessary for the implementation of a reception step of least one connection request sent by at least one terminal and redirected by a management device, a step of receiving an address of a first type interconnection device and a setting step of at least one communication link with said first type device using said received address. More generally, a means of storage, readable by a computer or by a microprocessor, whether or not integrated into the device, possibly removable, stores a program implementing the steps of a connection method, according to the invention. 20

Claims (10)

REVENDICATIONS1. Method for managing the connection of a plurality of terminals (TA, TB, TC, TD, TE) to a conference (CF, CF2), characterized in that it comprises the following steps implemented by a management device (SC receiving a plurality of connection requests (DC1, DC2, DC3, DC4, DC5, DC6) to said conference from said plurality of terminals; determining (E8, E28, E48, E68, S8, S30) a group (G, G2) of at least one interconnect device to be interconnected to establish said conference between said terminals, said group not including a device interconnection of the first type (MT) capable of receiving at least one said terminal, at least one multimedia stream and configured to encode a said multimedia stream received after decoding said stream, and comprising at least one device of the second type (SW1, SW2) configured to retransmit to at least one said terminal at least one received multimedia stream without decoding said at least one received stream, if all the terminals of said plurality have the same predefined set of multimedia stream encoding / decoding capabilities, said group including a said interconnection device of the first type (MT), otherwise. The management method according to claim 1 wherein said group comprises a second type of interconnection device if at least one terminal for which a connection request has been received has a predefined set of multimedia stream encoding / decoding capabilities previously registered for said interconnection device. 3. Management method according to claim 1 or 2 wherein the step of determining said group comprises, following the receipt of a connection request from a said terminal, the steps of: selecting a device for interconnection among a plurality of interconnection devices as a function of the multimedia stream encoding / decoding capabilities of said terminal, said plurality of interconnection devices including at least one interconnection device of the first type and at least one interconnection device second type; controlling the redirection of said connection request to said selected interconnection device; adding said selected interconnect device to said group if said device is not a device of said group; adding a first type interconnection device of the plurality of interconnection devices to said group if said group does not have a first type interconnection device and if said group comprises at least two devices interconnection of the second type. 4. Management method according to claim 3 characterized in that it comprises a step of transmitting an address of the interconnection device of the first type to at least one interconnection device of the second type of said group. 5. Method for connecting at least one terminal (TA) to a conference, characterized in that it comprises the following steps implemented by a second type of interconnection device (SW1) configured to retransmit to at least one terminal at least one multimedia stream received without decoding said at least one received stream: receiving (E12, S12) at least one connection request (DC1) transmitted by said at least one terminal (TA) and redirected by a management device (SC); receiving (E76, S38) an address (AD, AC) of a first type interconnection device (MT); establishing (E78, S40) at least one communication link (LT) with said first type interconnection device (MT) using said received address. The method of connection of claim 5 wherein the setting step comprises establishing at least one connection for transmitting at least one stream of the second type of interconnection device to the first interconnection device. type (MT), the number (CNE) of connections being less than the number of terminals connected to said second type interconnection device (SW1) and wherein the method comprises a selection step, at a given first instant (T1) of stream to be transmitted among the streams received from the terminals connected to said second type interconnection device. 7. Connection method according to claim 6 wherein the selection step is repeated at least a second given instant (T2). 30 8. Connection method according to one of claims 5 to 7 characterized in that it comprises a step of establishing a signaling link between said second type device (SW1) and said first type device (MT) . 9. Management device (SC) characterized in that it comprises: a reception module (RDC) of a plurality of connection requests to a conference from a plurality of terminals; and a determination module (DET) of a group of at least one interconnect device to be interconnected for establishing said conference between said terminals, said group not comprising a first type interconnection device (MT). ) adapted to receive from at least one said terminal, at least one multimedia stream and configured to encode a said multimedia stream received after decoding said stream, and comprising at least one second type device (SW1, SW2) configured to retransmit to at least one said terminal at least one multimedia stream received without decoding said at least one received stream, if all the terminals of said plurality have a same predefined set of multimedia stream encoding / decoding capabilities, said group comprising a said device of Interconnection of the first type (MT), otherwise. 10. Interconnection device of the second type (SW1, SW2, SW) comprising retransmission means configured to retransmit to at least one terminal of a plurality of terminals at least one multimedia stream received from at least one said terminal without decoding said at least one received stream characterized in that it comprises: a first communication module (CM1) for receiving at least one connection request transmitted by at least one said terminal and redirected by a management device; a second communication module (CM2) for receiving an address of a first type interconnection device (MT); and an establishment module (ETL) for establishing at least one communication link with said first type device (MT) using said received address. 25