FR2975853A1 - MULTIMODAL MULTIMEDIA TELECOMMUNICATION SYSTEM - Google Patents

Abstract

The invention relates to a telecommunication system between at least a first portable communication device (10) and a second communication device (20) connected by a communication network (30). This system is remarkable in that the first device (10) comprises: a communication module (14); a video encoder (15); a transmission module (16) giving priority to the audio data on the other data; a video frame controller (17) which regulates the number of frames of the video stream from each video source (11) of the first device (10) processed by the encoder (15) according to the following parameters: completion of the encoding the previous frame, transmitting the previous frame, receiving or displaying offset between the audio and video data on the second device (20). The present invention finds a particularly preferred application in remote technical assistance services and telemedicine.

Description

TECHNICAL FIELD The present invention relates to the field of multimodal multimedia telecommunication, over a telephone and / or computer network, and more particularly to telecommunications with transmission of at least audio and video data, as well as its particular application to technical assistance services in the field. distance and telemedicine. Generally, in this text, the reference vocabulary is that of the field of telecommunications.

PRIOR ART Multimedia telecommunication means in the present text that different data streams can be exchanged between the participants: voice, video, photo-type documents, text messages. The term multimodal means that the system uses all known and open public telephone and / or computer communication networks, as well as the various communication protocols applicable on these networks, for example the standard wireless telephone network. GSM or UMTS, the satellite telephone network, the wireless local area network according to IEEE802.11 (Wi-fi) standards, the wired telephone network, with the DSL techniques, or the optical fiber. A major difficulty in multimedia telecommunications stems from the available network bandwidth capacity and its variable footprint, depending on the number of users connected and the type of network available, especially if the only network accessible for communication is a network. cordless phone. Today, the available technical means allow

LEBLAI-EN-1 TEXTE DEPOSITS JS / AG - 2 - without having to have videoconferences on broadband computer networks capable of absorbing the high data rates required to transmit a video stream. However, these technical means can not be transposed over communication networks with much more limited capabilities, without compromising the fluidity of the conversation. There is therefore today a need for a telecommunication solution for having a conversation with smooth audio and video exchanges and at least one of the interlocutors being equipped with a portable device that can in certain situations only be connected via a telephone network without thread. This situation is for example experienced by users of remote technical assistance services in intervention in industrial facilities, or by emergency medical services in response to an accident occurring in an external environment. Such a tool does not exist to date, to the knowledge of the applicant.

SUMMARY OF THE INVENTION The present invention therefore aims to meet this need, by proposing an original multimedia and multimodal telecommunications system.

In this regard, the subject of the invention is a telecommunication system, with at least audio and video data transmissions, between at least a first portable communication device and a second communication device, said communication devices being connected by a communication device. telephone and / or computer communication network, each of said communication device comprising at least one audio source, means for displaying and broadcasting sound, means for encoding / decoding audio and video streams, transmission / broadcasting means, reception of flows LEBLA1-FR-1_TEXT REMOVAL JS / AG - 3 audio and video and computer processing means; this system is remarkable in that the first portable communication device comprises: at least one video source, a multiband and multi-network communication module; at least one video encoder for compressing the video data submitted to it by the video frame controller; a multiprotocol multimedia data transmission module, which transmits the data according to the protocol (s) adapted to the communication network (s) connecting the first device and the second device, and according to a technique multiplexing, prioritizing the audio data on the video data and other photo or text type data to ensure smooth audio communication between the first and second communication devices; at least one video frame controller which regulates the number of frames of the video stream from each video source of the first device to be processed by the encoder according to the following parameters taken alone or in combination: completion of the encoding of the previous frame, transmission of the previous frame, reception or display shift between the audio and video data on the second device. It will be understood that, thanks to the combined use of a priority transmission of the audio stream, of the multiplexing and of the adaptation of the number of frames contained in the compressed video stream, in particular as a function of a feedback of the second device, this results in a fluid communication with a real-time adaptation whatever the transmission capabilities of the communication networks implemented and the latency times between at least the two connected communication devices. Other advantages and features will become more apparent from the following detailed description of the system according to the invention and examples of use of said system, with reference to the appended drawings in which: FIG. 1 is a general schematic view of the system according to the invention; FIG. 2 is a schematic view of the data flows at the level of the first communication device of the system 10 according to the invention.

DESCRIPTION OF AN EMBODIMENT With reference to FIG. 1, the telecommunication system comprises at least transmissions of audio and video data between at least a first portable communication device and a second communication device. These communication devices 10, 20 are connected by a telephone and / or computer communication network 30, depending on the networks 20 accessible to each of the devices. It will be understood that the system is not limited to communications between two devices 10, 20 but that it makes it possible to have multiple parallel communications between several communication devices 10, 20. For example, several emergency physicians operating at the same accident site and each equipped with a first portable device 10 may communicate with each other and / or with a second remote device located in a medical emergency service. Each of the communication devices 10, 20 comprises at least one audio source 12, 22 (typically a microphone), display means 13, 23 (typically a display) and sound diffusion means (for example, loudspeakers). speakers or audio headphones), means for encoding / decoding audio and video streams, means for transmitting / receiving audio streams and video processing means and computer processing means. The second device 20 advantageously comprises at least one video source 21 (typically a camera). However, this source may only be activated on demand, depending on the needs of users. According to one characteristic of the invention, the first portable communication device comprises: at least one video source 11, a multiband and multi-network communication module; at least one video encoder 15; a multimedia protocol multiprotocol transmission module 16, prioritizing the audio data on the video data and other data in order; At least one video frame controller 17 which regulates the number of frames of the video stream to be processed by the encoder 15 according to predefined parameters. The multiband and multi-network communication module 14 thus enables the first portable communication device 20 to connect to any telephone and / or computer network that is accessible to it. Preferably and advantageously, the communication module 14 is provided with a scanner and an automatic selector of the communication network 25 accessible near the first portable device 10 and allowing the best communication rate between the first and the second communication device 20. Preferably, said automatic selector is adaptive: if during communication another accessible communication network than the one employed had better capabilities than the one used, then the communication would switch to that other network. According to another characteristic and with reference to FIG. 2, the video encoder compresses the video data LEBLA1-FR-1 TEXTE DEPOSE JS / AG - 6 - which are submitted to it by the frame controller 17; they are frames coming from the raw stream emitted by the video sources 11. The compression applied may be a known compression method, for example of the MPEG-4, MPEG-21, H263 or H264 type, or a specific format. According to an advantageous variant, each video source 11 is connected to an encoder 15 and a controller 17 dedicated to this source. According to a preferred embodiment, the encoder 15 and the controller 17 are modules of a computer program executed on the communication devices 10, 20. Thus and advantageously, for each video source 11,21 connected to a communication device 10,20, an encoder 15 and a controller 17 are generated. According to another characteristic, and with reference to FIG. 2, the multiprotocol multimedia data transmission module 16 transmits the data of the first communication device 10 according to the protocol (s) adapted to the network (s). (X) communicating the first device 10 and the second device 20, and according to a multiplexing technique, giving order by priority to the audio data on the video data and other data of the photo or text type, to ensure a smooth audio communication between the first and the second communication device 10.20.

With reference to FIG. 2 and the arrows represented in dotted lines, the video frame controller 17 regulates the number of frames of the video stream coming from the video source 11 of the first device 10 to be processed by the encoder 15 according to the following parameters taken alone or in combination: completion of the encoding of the previous frame, transmission of the previous frame, shift of reception or display between the audio and video data on the second device 20. According to a preferred variant, the communication between the LEBLAI-FR-1 TEXT REMOVES JS / AG - 7 - first and the second communication device 10,20 passes through a communication server. This advantageously makes it possible to overcome the constraints of firewalls that may block the computer program managing communications. The second communication device 20 optionally includes at least one video source 21. Preferably, the second communication device 20 comprises: a video encoder for compressing the video data submitted to it; a multiprotocol multimedia data transmission module, which transmits the data according to the protocol (s) adapted to the communication network (s) connecting the first device and the second device, and according to a technique multiplexing, prioritizing the audio data on the video data and then other photo or text type data to provide smooth audio communication between the first and second communication devices; a video frame controller which regulates the number of frames of the video stream from each video source of the second device to be processed by the encoder according to the following parameters taken alone or in combination: completion of the encoding of the previous frame , transmitting the previous frame, receiving or displaying offset between the audio and video data on the first portable communication device. It is thus understood that in this way the mode of exchange of the audio and video data between the first and the second communication device is identical and that the communication is regulated in the same way in both directions, ensuring an optimum of fluidity. According to an advantageous embodiment, LEBLAI-FR-1 TEXTE REMOVES JS / AG - 8 - to improve the sharing of bandwidth resources and computing capacity between two communication devices 10,20, each of the devices 10 , 20 comprises a video balancing module which gives instructions to the frame controller so that the streams transmitted and received by each of the devices to the other are as close as possible, preferably identical, in number of frames per second. Advantageously, this balancing module is activated on demand. In particular, it makes it possible to take account of significant differences in computing capacity between two communication devices 10, 20 in relation to one another. The second communication device 20 is preferably a computer connected to a broadband network.

It is intended to be used by an operator providing advice to a remote user, in communication through a first portable communication device. In fact, the second device 20 may include a video source 21 which is activated according to the needs of the remote user in a video image of his interlocutor or the environment of the latter. According to an alternative embodiment, the second communication device 20 is a portable communication device identical to the first portable communication device 10: the system allows at least two users equipped with portable devices to communicate with each other. For example, as illustrated in Figure 1, the first communication device 10 is constructed in the form of a laptop embedded in a suitcase and provided with a computer program dedicated to multimedia communication. This portable device 10 may advantageously comprise an audio source 12 and a video source 11 connected LEBLA1-FR-1 TEXTE REMOVAL J5 / AG - 9 - by radiofrequency 18 to this one: an operator can therefore evolve near the device 10 without having to move it to provide video and / or audio data. In addition, the first portable communication device 10 is powered by batteries, which gives it autonomy and freedom of portability.

Industrial Application As explained above, the system according to the invention can be deployed for remote technical assistance and industrial maintenance services as well as telemedicine. Finally, it goes without saying that the examples of use of the system are only particular examples, and that other applications are possible, without departing from the scope of the present invention. LEBLA1-FR-1_TEXT DEPOSITS JS / AG

Claims (4)

CLAIMS1 - Telecommunication system, with at least audio and video exchanges, between at least a first portable communication device (10) and a second communication device (20), said communication devices being connected by a network (30) of telephone and / or computer communication, each of said communication device (10, 20) comprising at least one audio source (12, 22), display means (13, 23) and sound diffusion means, coding means decoding audio and video streams, means for transmitting / receiving audio and video streams and computer processing means characterized in that the first portable communication device (10) comprises: at least one video source (11), a multiband and multi-network communication module (14); at least one video encoder (15) for compressing the video data submitted to it; a multiprotocol multimedia data transmission module (16), which transmits the data according to the protocol (s) adapted to the communication network (s) (30) connecting the first device (10) and the second device (20), and according to a multiplexing technique, prioritizing the audio data on the video data and other photo or text data to provide smooth audio communication between the first and the second second communication device (20); at least one video frame controller (17) which regulates the number of frames of the video stream from each video source (11) of the first device (10) to be processed by the encoder (15) according to the parameters LEBLAI- EN-1 TEXT REMOVE JS / AG- 11 - taken alone or in combination: completion of the encoding of the previous frame, transmission of the previous frame, shift of reception or display between the audio and video data on the second frame device (20). 2 - System according to the preceding claim characterized in that the communication between the first and the second device (20) communicates via a communication server. 10 3 - System according to any one of the preceding claims characterized in that the communication module (14) multiband and multi-network is provided with a scanner and an automatic selector of the network (30) 15 communication accessible near the first device (10) portable and allowing the best communication rate between the first and the second device (20) communication. 20 4 - System according to claim 3 characterized in that said automatic selector is adaptive. System according to any one of the preceding claims, characterized in that the second communication device (20) comprises: a video encoder, intended to compress the video data submitted to it; a multiprotocol multimedia data transmission module, which transmits the data according to the protocol (s) adapted to the communication network (s) connecting the first device and the second device, and according to a multiplexing technique, prioritizing audio data on the video data and then other photo or text type data to ensure smooth audio communication between the first and the second. AG 5- 12 - second communication device; a video frame controller which regulates the number of frames of the video stream from each video source of the second device to be processed by the encoder according to the following parameters taken alone or in combination: completion of the encoding of the previous frame , transmitting the previous frame, receiving or displaying offset between the audio and video data on the first portable communication device. 6 - System according to one of the preceding claims characterized in that the second device (20) for communication is a portable communication device identical to the first device (10) portable communication. 7 - System according to any one of claims 1 to 6 characterized in that an audio source (12) and a video source (11) are connected by radio frequency (18) to the first device (10) portable communication. 8 - System according to any one of claims 1 to 7 characterized in that the first device (10) portable communication is powered by batteries. 9 - Application of the telecommunication system according to any one of the preceding claims to a remote technical assistance service. 10 - Application of the telecommunication system according to any one of claims 1 to 8 to a telemedicine service. LEBLAI-FR-1 TEXT DEPOSITS JS / AG