RU2374784C2 - System for transfer and presentation of video data - Google Patents

Abstract

FIELD: information technologies.

SUBSTANCE: system is suggested for transfer and representation of video data, comprising station (1) of video data transfer control with communication module (2), and also communication network (3), at least with one related communication terminal device (4). Communication terminal device (4) comprises the following components: facility (5) for video image transfer to a specified area of user eye (7) retina (6) surface, and also video display (8), which visually displays received video data for user of communication terminal device (4). Station (1) of video data transfer control comprises video data bank and/or file server (9), where video data are stored in digital form. Facility (5) of video image transfer onto specified area of user eye (7) retina (6) surface is arranged in the form of eye contact lens (10), inlet surface of which is a receiving surface of video display (8), and outlet surface (11) is located directly in front of user eye (7) cornea (12).

EFFECT: increased stability of video image transfer onto specified area of user eye retina surface.

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Description

The invention relates to a system for transmitting and presenting video data, as well as to corresponding devices.

In the patent of the Russian Federation 2212114 a system for transmitting and presenting video data is described, comprising a video data transmission control station with a communication module, as well as a communication network with at least one communication terminal device connected to it, the communication terminal device includes at least a video display, which visually displays the received video data for the user of the communication terminal device, means for transmitting the video image to the specified area by erhnosti retinal eye of the user, the video data transmission control station includes a bank of video data and / or file server in which the video data are stored in digital form.

In the known system, the means for transmitting video images to a given area of the surface of the retina of the user's eye is made in the form of three modules: a module for determining the position of the user's eyes, designed to determine the current position of the user's eyes; a module for transmitting feedback messages about the position of the user's eyes, which transmits the received current position of the user's eyes to the video transmission control station; a video data filtering module that filters the stored video data before transmitting it based on the received current positions of the user's eyes. Despite the obvious complexity of this combination of modules, it cannot ensure the stability of video transmission to a given area of the surface of the retina of the user's eye.

The present invention is the creation of a new and improved system for the transmission and presentation of video data, which can ensure the stability of the transmission of video images on a given area of the surface of the retina of the user's eye. Another important task is the ability to use the proposed system to obtain surround video.

In accordance with the claimed invention, this result is achieved by means of the features given primarily in the first paragraph of the claims. Other preferred embodiments are described in the dependent claims and in the description.

In a system for transmitting and presenting video data that includes a video data transmission control station with a communication module, as well as a communication network with at least one associated communication terminal device, the communication terminal device includes at least a video display that visually displays received video data for a user of a communication terminal device, means for transmitting a video image to a predetermined area of the surface of the retina of the eye i, the video data transmission control station contains a video data bank and / or a file server in which digital video data is stored, the result of the invention is achieved in that the video image transmission means to a predetermined surface area of the retina of the user’s eye is made in the form of an ophthalmic contact lens, the input surface which is the receiving surface of the video display, and the output surface is located directly in front of the cornea of the user's eye. The advantage of this system is that the previously known properties of the eyes of users and the properties of contact lenses ensure the stability of the transmission of video images to a given area of the surface of the retina of the user's eye.

In one embodiment, the ophthalmic contact lens is an optical panel comprising a plurality of stacked optical waveguides, each of which has a first end and a second end, in which an output surface is formed by a plurality of first ends and in which an input surface is formed by a plurality of second ends, wherein the input surface is the receiving surface of the video display, and the output surface is located directly in front of the cornea of the user's eye.

In another embodiment, the ophthalmic contact lens is an optical panel containing a plurality of stacked controlled LEDs, each of which has a first end and a second end, in which the output surface is formed by a combination of first ends and in which the input surface is formed by a combination of second ends, the input and output surfaces formed by conductive films, the output surface is located directly in front of the cornea of the user's eye, and conductive films are connected with a bank of video data and / or file server through a communications network.

In one embodiment, the input and output surfaces of each optical panel are made with a curvature selected according to individual indicators of each user's eye, for example, refraction and, or astigmatism, as well as transmitting a video image to a given area of the surface of the retina of the user's eye, corresponding to the highest visual acuity.

This has the advantage that by changing the properties of the optical panels it is possible to take into account with optimum accuracy a certain property of the human eye, namely the fact that a small area of the retina covering an angle of view of about 2 °, the so-called fossa (indentation), corresponds to the highest visual acuity. Thus, it becomes possible to precisely determine the location and diameter of the video image spot on a given area of the surface of the retina of the user's eye, while the amount of data to be transmitted can be reduced in a very significant way.

In one embodiment, the communication network is wired and / or radio.

In one embodiment, radio communication includes mobile radio devices and, or, Bluetooth communication channels.

In one embodiment, the video data bank and / or file server contains video information for the right and left eyes of users obtained, for example, using two digital photo or video cameras. This has the advantage that it becomes possible to use the proposed system to obtain surround video.

In one embodiment, the video display is made with adjustable transparency. In another embodiment, the conductive films 22 are made with adjustable transparency. This has the advantage that it becomes possible to use the proposed system as ordinary contact lenses.

In one embodiment, a module for transmitting feedback messages about the state of the iris of the eye is located on the peripheral surface of the ocular contact lens, and the video data bank and / or file server contains a module for iridology.

In one embodiment, the implementation of the video bank and / or file server contains a module for related audio information that is associated with the speakers and / or headphones of the user.

In one embodiment, the user's headphones are equipped with a video information relay, the output of which is wired and, or by radio communication with conductive films of controlled LEDs.

A possible embodiment of the claimed invention is described below by way of example.

Figure 1 schematically shows a block diagram of a system; figure 2 - eye contact lens, which is made in the form of an optical panel containing a set of stacked optical waveguides; figure 3 - the ophthalmic contact lens is an optical panel containing a set of stacked controlled LEDs, and a module for transmitting feedback messages about the state of the iris.

A system for transmitting and presenting video data comprises a video data transmission control station 1 with a communication module 2, as well as a communication network 3 with at least one associated communication terminal device 4. The communication terminal device 4 includes means 5 for transmitting a video image to a predetermined surface area the retina 6 of the user's eyes 7, as well as the video display 8, which visually displays the received video data for the user of the communication terminal device 4. Adjustment 1 controls video data transfer pot comprises video data and / or file server 9, in which the video data is stored in digital form. Means 5 for transmitting a video image to a given region of the surface of the retina 6 of the user's eye 7 is made in the form of an ophthalmic contact lens 10, the input surface of which is the receiving surface of the video display 8, and the output surface 11 is located directly in front of the cornea 12 of the user's eye 7.

In one embodiment, the ophthalmic contact lens is an optical panel 13 comprising a plurality of stacked optical waveguides 14, each of which has a first end 15 and a second end 16. In the optical panel 13, the output surface 17 is formed by a combination of first ends 15, and the input surface 18 is formed by a combination of second ends 16, the input surface 18 being the receiving surface of the video display 8, and the output surface 17 located directly in front of the cornea 12 of the user's eye 7. The possibility of implementing this option is shown, for example, in the application of the Russian Federation 2001108573.

The input 18 and output 17 surfaces of each optical panel 13 are made with a curvature selected according to individual indicators of each eye 7 of the user, for example, refraction and, or astigmatism, as well as transmitting a video image to a given area of the surface of the retina 6 of the user's eye 7, corresponding to the highest visual acuity.

The eye contact lens may be an optical panel containing a plurality of stacked controlled LEDs 19, each of which has a first end 20 and a second end 21, in which the output surface is formed by a combination of first ends 20 and in which the input surface is formed by a combination of second ends 21, and the input and the output surface is formed by conductive films 22, the output surface is located directly in front of the cornea 12 of the user's eyes 7, and the conductive films 22 are connected us with a bank of video data and / or file server 9 the communication network 3.

In one embodiment, a module 23 for transmitting feedback messages about the state of the iris 24 of the eye 7 is located on the peripheral surface of the ophthalmic contact lens, and the video data bank and / or file server 9 contains a module 25 for iridology.

In one embodiment, the implementation of the video bank and / or file server 9 contains a module 26 of related audio information, which is associated with the speakers and, or headphones 27 of the user. In one embodiment, the headphones 27 of the user are equipped with a relay 28 video information, the output of which is wired and, or radio communication with the conductive films 22 of the controlled LEDs 19.

In one embodiment, the video display 8 is made with adjustable transparency.

In one embodiment, the conductive films 22 are made with adjustable transparency.

The communication network 3 can be made wired and, or by radio.

In one embodiment, the radio communication may include mobile radio communication devices and / or Bluetooth communication channels, for example, a fixed network such as a public switched telephone network or an Internet Protocol (IP) network and / or a mobile radio communication network such like a GSM or UMTS network.

In one of the options for obtaining a three-dimensional video image, the video data bank and / or file server 9 contains video information for the right and left eyes of users obtained, for example, using two digital photo or video cameras. The possibility of implementing this option is shown, for example, in the application of the Russian Federation 2005129603.

The system operates as follows.

Video data is requested in the video transmission control station 2 and transmitted via the communication network 3 to the terminal communication device 4, where, using the video display 8 of the communication terminal device 4, the video signals corresponding to the video data are projected onto the retina 6 of the eye 7 of the user of the communication terminal device 4.

The video display 8 can project image signals directly onto the retina 6 of the eye 7, for example in the form of an RGB signal (red-green-blue), an NTSC signal (National Television Standards Committee), a VGA video signal (video adapter), or other formatted color or monochromatic video signal or graphic signal.

In embodiments, the communication network 3 may be wired and / or via radio. Radio communication may be in the form of Bluetooth communication channels or a mobile radio communication network, at least some communication terminal devices 4 may be mobile radio communication devices, such as mobile phones or laptops or PDAs with telecommunication functions, which using, for example, service messages short messages (SCS), messages of unstructured data of additional services (NDDU), general packet radio services (ODA) or in accordance with a suitable proto ol can communicate via a channel used by the mobile radio network.

Selection commands and instructions are entered by the user of the communication terminal device 4 and transmitted to the video transmission control station 1 via the communication network 3, received there by the communication module 2 and processed in such a way that the video data requested by the user is read from the data bank and / or file server 9 of the transmission control station the video data 1 and through the communication network 3 are transmitted to the communication terminal device 4 of the user. The user can receive not only video information, but also audio information. For this, from the video data bank and / or file server 9 from the module 26, the accompanying audio information is transmitted to the speakers and, or the headphones 27 of the user. Another important feature of the proposed system is the ability to constantly monitor the user's health status, for this, messages on the state of the iris 24 of the user's eye 7 are transmitted from the module 23 located on the peripheral surface of the eye contact lens to the video data bank and / or file server 9, which contains module 25 for iridodiagnosis. The use of a repeater 28, which is located in close proximity to the receiving device of the ophthalmic contact lens, for example, in the user's headphones 27, will allow transmitting rather weak signals from the video bank and / or file server 9 to the video display 8 or conductive films 22, thereby making it possible to reliably form in the controlled LEDs 19, the RGB signal (red-green-blue).

Claims (8)

1. A system for transmitting and presenting video data, comprising a video data transmission control station with a communication module, as well as a communication network with at least one associated communication terminal device, the communication terminal device includes at least a video display that visually displays received video data for a user of a communication terminal device, means for transmitting a video image to a predetermined area of the surface of the retina of the user's eye, mod ul transmitting feedback messages from the user's eyes, the video data transmission control station contains a video data bank and / or a file server in which the video data is stored in digital form, characterized in that the video image transmission means to a predetermined surface area of the retina of the user's eye is made in the form of an ophthalmic contact lens, the input surface of which is the receiving surface of the video display, the output surface is located directly in front of the cornea of the user's eye, while The contact lens is an optical panel containing a set of stacked optical waveguides, each of which has a first end and a second end, in which the output surface is formed by the set of first ends and in which the input surface is formed by the set of second ends, the video bank and / or file server contains video information for the right and left eyes of users obtained, for example, using two digital cameras or video cameras. 2. The system according to claim 1, characterized in that the module for transmitting feedback from the user's eyes is located on the peripheral surface of the ophthalmic contact lens and is designed as a means for transmitting messages about the state of the iris, and the video data bank and / or file server contains a module for iridodiagnosis. 3. The system according to claim 1, characterized in that the optical panel contains a plurality of stacked controlled LEDs, each of which has a first end and a second end, in which the output surface is formed by a combination of first ends and in which the input surface is formed by a combination of second ends, and the input and the output surface is formed by conductive films, the output surface is located directly in front of the cornea of the user's eye. 4. The system according to claim 1, characterized in that the input and output surfaces of each optical panel are made with a curvature selected according to individual indicators of each user’s eye, for example, refraction and / or astigmatism, as well as transmitting a video image to a given area of the surface of the retina of the user's eye, corresponding to the highest visual acuity. 5. The system according to claim 1, characterized in that the communication network includes mobile radio communication devices and / or Bluetooth communication channels. 6. The system according to claim 1, characterized in that the video display is made with adjustable transparency. 7. The system according to claim 3, characterized in that the conductive films are made with adjustable transparency. 8. The system according to claim 1, characterized in that the bank of video data and / or file server contains a module for related audio information, which is associated with sound columns and / or headphones of the user.

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