RU2002105027A - METHOD AND SYSTEM FOR IMPLEMENTING VIDEO CONFERENCES - Google Patents

Claims (14)

1. A method of video conferencing, in which at least three subscriber stations (11) video conferencing communicate with each other, and multimedia data is transmitted over a telecommunication network (40) and include at least image data (22) of subscribers and / or tonal data (21) of the subscribers, and each of the subscribers (10) receives image data of other subscribers simultaneously reproduced visually in the device (24) for reproducing the corresponding subscriber station (11) video conference, characterized in that the subscriber’s gaze (10) is recorded by the eye position tracking system (23), and the eye position tracking data, which includes at least gaze direction data, is transmitted to the communication unit (20) of the corresponding subscriber station (11) video conferencing, and the subscriber’s image data is transmitted with full resolution and image transmission speed over the telecommunications network (40) to the communication unit (20) of the video subscriber station (11), for the subscriber whose image data is reproduced are displayed on the playback device (24) of said subscriber station (11) video conferencing in the current direction of the view of the subscriber (10) of the given subscriber station (11) video conferencing, while the image data of the other subscribers is transmitted with reduced resolution and / or with a reduced image transmission speed . 2. The method according to claim 1, characterized in that the image transfer rate for those subscriber image data that is not reproduced in the current direction of the subscriber’s gaze (10) is zero. 3. The method according to claim 1 or 2, characterized in that the tracking data for the position of the eyes and the image data of the subscribers are transmitted to the central unit (30), while the central unit (30) for each subscriber (10), according to the instructions in the tracking data behind the position of the eyes of the respective subscribers (10), determines the resolution and / or transmission rate of image data of other subscribers and transmits the image data of subscribers with this resolution and / or with this transmission rate of images to the communication unit (20) of the corresponding subscriber (10). 4. The method according to claim 1 or 2, characterized in that the image data of the subscribers are transmitted to the central unit (30) and stored in the memory unit (32) of the central unit (30), the communication unit (20) of the subscriber (10) determines, according to the instructions contained in the eye position tracking data of the respective subscriber (10), the resolution and / or image transfer rate for the image data of other subscribers, and these image data of the subscribers are transmitted from the central unit (30) with this resolution and / or with this transmission rate images in communicator The unit (20) of the corresponding subscriber (10). 5. The method according to claim 1 or 2, characterized in that the image data of the subscriber (10) is stored in the memory unit (26) of the communication unit (20) of this subscriber (10), and the communication unit (20) determines, according to the instructions in the data tracking the position of the eyes of this subscriber (10), resolution and / or transmission rate of image data of other subscribers, the last mentioned image data of subscribers being transmitted from communication units of other subscribers with this resolution and / or with this transmission rate of images to the communication unit (20) from the corresponding subscriber (10). 6. The method according to any one of claims 1 to 5, characterized in that at least one subscriber station (11) video conferencing is connected to a telecommunications network (40) through a mobile radio communication network (40). 7. The method according to any one of claims 1 to 6, characterized in that the communication unit (20) uses image analysis and form reconstruction algorithms to represent subscriber image data that was transmitted at a lower resolution. 8. A video conferencing system comprising at least three subscriber stations (11) video conferencing, which are connected to each other via a telecommunications network (40) and include at least a communication unit (20), a playback device (24) for simultaneous visual presentation of subscriber image data and a tone data output module (25) for reproducing subscriber tone data, as well as an image data input module (22) for collecting subscriber image data and a tone data input module (21) for collecting tonal data of subscribers, characterized in that the subscriber station (11) video conferencing contains a tracking system for the position of the eyes (23), through which the direction of observation of the subscriber (10) is recorded and through which the tracking data of the position of the eyes is transmitted to the communication unit (20), moreover, the tracking data for the position of the eyes include at least data about the direction of the gaze of the subscriber (10), and the video conferencing system contains means that transmit with full resolution and bit rate pressing on the telecommunication network (40) to the communication unit (20) of the subscriber station (11) video conferencing image data of that subscriber whose image data is reproduced on the playback device (24) of the said subscriber station (11) video conferencing in the current direction of the view of the subscriber (10) of this subscriber station (11) video conferencing, while the image data of the remaining subscribers are transmitted with reduced resolution and / or with a reduced image transmission speed. 9. The system of claim 8, characterized in that the image transfer rate for those subscriber image data that is not reproduced in the current direction of the subscriber’s gaze (10) is zero. 10. The system according to claim 8 or 9, characterized in that the video conferencing system comprises a central unit (30), the central unit (30) for each subscriber (10), according to the instructions in the eye position tracking data of the respective subscribers (10) , determines the resolution and / or transmission speed of image data of other subscribers and transmits image data of subscribers with this resolution and / or with this transmission rate of images to the communication unit (20) of the corresponding subscriber (10). 11. The system according to claim 8 or 9, characterized in that the video conferencing system comprises a central unit (30) with a memory unit (32), and from the memory unit (32), subscriber image data can be downloaded by communication units in accordance with the instructions contained in in the eye position tracking data of the corresponding subscriber (10), with full or reduced resolution and with full or reduced image transmission speed. 12. The system according to claim 8 or 9, characterized in that the communication unit (20) of the subscriber (10) contains a memory unit (26), and from the memory unit (32), image data of the corresponding subscriber can be downloaded by communication units (20), in accordance with the instructions contained in the eye position tracking data of the corresponding subscriber (10), with full or reduced resolution and with full or reduced image transmission speed. 13. The system according to any one of claims 8 to 12, characterized in that the telecommunication network (40) includes a mobile radio communication network. 14. A system according to any one of claims 8 to 13, characterized in that the communication unit (20) comprises an image recovery module that uses image analysis and form reconstruction algorithms to recover subscriber image data that was transmitted at a lower resolution.