RU80296U1 - INTERACTIVE COMMUNICATION SYSTEM (OPTIONS) - Google Patents

Abstract

The utility model relates to the field of communication and can be used, in particular, for the interactive exchange of information between subscribers using a two-dimensional bar code.

The technical result expected from the use of the claimed utility model is to expand the functionality of the interactive communication system in terms of ensuring its operation with a two-dimensional bar code.

In accordance with the first embodiment, the interactive communication system consists of a communication center 1, configured for information and communication interaction with the Internet 4, wireless and / or wired digital communication channels, as well as at least one subscriber terminal 21. Last equipped with at least an application processor 211, a display 212, a video camera 213, a keyboard 214, an uninterruptible power supply 215, means for generating a unique subscriber identity number the terminal 216 and the transceiver unit 217, consisting of a wireless communication module 2171, a packet data transmit-receive modem 2172, and an antenna 2173. In this case, the system comprises at least one server 31 connected to the Internet 4 and configured to receive from said network and transmitting a two-dimensional bar code into it, receiving from said network and transmitting alphanumeric content and / or image thereto, encoding alphanumeric content and / or image into a two-dimensional bar code, decoding the two-dimensional bar code into alphabetic digital content and / or image; and editing alphanumeric content and / or image. Application processor 211 is capable of decoding a two-dimensional barcode received by subscriber terminals 21-N2 and 51-N1 through digital communication channels and generating a two-dimensional barcode from alphanumeric content and / or image autonomously or through interaction with said server 31. Second an embodiment of the claimed system differs from the first embodiment in that the application processor 211 is configured to decode two-dimensionally received from a subscriber terminal 21-N2 and 51-N1 from the outside via an optical channel of the bar code and the generation of a two-dimensional bar code from the alphanumeric content and / or image autonomously or through interaction with said server 31. 2n. and 22 z.p. f-ly, 4 ill.

Description

The utility model relates to the field of communication and can be used, in particular, for the interactive exchange of information between subscribers using a two-dimensional bar code.

A known communication system [1], comprising a subscriber unit with a group of subscriber sets and a group switching subscriber device, inputs of subscriber sets of a group of subscriber sets on subscriber lines are connected to subscriber telephone installations, and their outputs are connected to the first inputs of a group switching subscriber device. The first outputs of the group subscriber switching device are connected to the first inputs of the group part of the switching system, the first group of outputs of the group part of the switching system is connected to transmission systems in the directions to other switching systems, and the second group of outputs of the group part of the switching system is connected to the second inputs of the group switching subscriber devices, the second outputs of which are associated with the said group of subscriber sets. The group part of the switching system is also equipped with second inputs associated with transmission systems in directions from other switching systems, and the group part of the switching system is made in the form of a unified module of a packet information system containing hardware and software tools, which include a signaling gateway with a protocol packet information transfer or modification of this protocol, media gateway, local area network switch, asynchronous multiplexer-demultiplexer and modulators-demodulators and / or the first group of matching devices of transmission systems. The system also includes a second group of outbound matching devices and a third group of incoming matching devices, with the signaling gateway and media gateway connected to each other by a bi-directional control bus, the LAN switch connected to the signaling gateway, media gateway, and subscriber terminal connection inputs.

The output of the signaling gateway is connected via the system bi-directional bus PC1 to the input of the asynchronous demultiplexer multiplexer, and via the bi-directional signaling bus, to the first inputs / outputs of modulators-demodulators and / or the first group of matching devices of the transmission systems, the second group of matching devices of the outgoing communication and the third group of matching incoming communication devices, the second inputs / outputs of which are connected to the outputs of the asynchronous multiplexer-demultiplexer, and the third inputs / outputs of which are connected to the information output home / input of the media gateway, while the outputs / inputs of modulators-demodulators and / or the first group of matching devices of the transmission systems are connected to the inputs of the transmission systems, the inputs / outputs of the second group of matching devices of the outgoing communication are connected with the aforementioned first output of the group subscriber switching device , the outputs / inputs of the third group of matching devices for incoming communications are connected with the aforementioned second input of a group subscriber switching device.

The disadvantage of the described communication system is the impossibility of receiving-transmitting and processing (encoding-decoding) in it two-dimensional barcodes.

A known system for exchanging information in a GSM communication network using a mobile communication term [2]. The mobile communication terminal contains a transceiver, which is connected to the first antenna by the first input-output, and connected to the first input-output of the modem, which is connected to the first input-output of the processor by its second input-output, an input-output port, which is connected to the third input-output of the modem by the first input-output. In the considered mobile communication terminal, a first microcontroller is introduced, which is connected to the second input-output of the processor by the first input-output and the second input-output of the input-output port with the second input-output. It should be noted that as one of the preferred embodiments, the mobile communication terminal is a cell phone, in which the modem contains a digital signal processor and a storage device, the first input-output of the digital signal processor is connected to the first input-output of the modem, the second input-output digital signal processor is connected to the second input-output modem, and the third

input-output - with the third input-output of the modem, the input-output of the storage device is connected to the fourth input-output of a digital signal processor, while an analog-to-digital converter and a digital-to-analog converter are built into the digital signal processor. In said terminal, the transceiver comprises a power amplifier and a dual-band radio frequency amplifier, a first input-output of a power amplifier is connected to a first input-output of a transceiver, a second input-output of a power amplifier is connected to a first input-output of a dual-band radio frequency amplifier, and a second input-output which is connected to the second input-output of the transceiver. In addition, the mobile communication terminal includes a power management device, a power charge monitoring device, a dual-tone multi-frequency receiver and an external power supply port, the output of which is connected to the first input of the power charge monitoring device, the second input of which is connected to the output of the power supply battery, the output of the power charge control device is connected with the first input of the power management device, with the third input of the mentioned microcontroller and with the first input of the multi-frequency receiver, the first output of the power control device is connected to the processor, the second output of the power control device is connected to the input of the power amplifier of the transceiver, the third output of the power control device is connected to the input of a dual-band radio frequency amplifier of the transceiver and the input of the said digital signal processor, input-output a dual-tone multi-frequency receiver is connected to a third input / output of said processor.

The disadvantage of the considered system is the impossibility of receiving-transmitting and processing (encoding-decoding) in it two-dimensional barcodes.

A known communication system (telematics system) based on a GSM network [3] is characterized in that it contains a network of terminal devices located at stationary or mobile monitoring and / or security facilities associated with at least one dispatch center and monitoring by a cellular communication network, each specified terminal device includes a microcontroller interconnected with the docking unit by transmitters and actuators

devices, with a signal receiver of a satellite radio navigation system, with a GSM modem, with a VHF radio transceiver and its modem for transmitting information about the location of a mobile object and / or the state of sensors at the object. At the same time, it is equipped with a network of stationary transceivers of VHF radio communications connected by communication channels to a dispatching and monitoring center for exchanging information with transceivers located at the facilities. The dispatch and monitoring center of the system under consideration is equipped with means for calculating the location of mobile objects using signals from the VHF radio transceiver received by the network of stationary VHF radio transceivers.

The disadvantage of the considered system is the impossibility of receiving-transmitting and processing (encoding-decoding) in it two-dimensional barcodes.

In addition to these devices, an interactive mobile communication system [4], which has access to a service provider, is known from the prior art. It contains base stations-switches serving mobile stations, a service center for short SMS messages and multimedia messages MMS and a service delivery node. At the input of the service delivery node, a node for receiving a request for providing a service is connected, connected via an identifier with a settlement and credit system for paying for services and with a response signal transmitter, as well as a node for receiving a multimedia message MMZ with the image of the subscriber's hand lines, the output of which is connected to a reading unit of significant lines hands of the subscriber. The service delivery node contains a memory node of the set of hand line values with comments, the output of which is connected to the input of the comparison unit, the other input of which is connected to the output of the reader of significant lines of the subscriber's hand, and the output of the comparison unit through the response signal generator and the response signal recording unit is connected with a response message transmitter, providing delivery of the provided service.

The disadvantage of the described communication system is the impossibility of receiving-transmitting and processing (encoding-decoding) in it two-dimensional barcodes.

The closest in technical essence and the achieved result is a technical solution [5], which is adopted as a prototype. The prototype is an interactive communication system based on the networks of the global mobile communication system (GSM-communication), in which a mobile phone is used as a mobile communication terminal. Said mobile communication terminal comprises a first and second antenna, an external antenna, which is an antenna of a global system for mobile communications, combined with an antenna of a satellite system of a global positioning system, two connectors, a modem configured to work with a global system for mobile communications and a packet switching system in mobile networks, a subscriber’s ID card reader, speaker, microphone, display, vibrator, bell, I / O port, external power port, power supply battery, infrared input / output port, universal serial input / output port, application processor, device for wireless reception and transmission of data (Bluetooth), one antenna of which is built into the housing of the mentioned communication terminal and is designed to communicate with an external device for wireless reception and transmission of data (Bluetooth), and another antenna is built into the housing of the mentioned communication terminal and is designed to communicate with an external modem connected to a wireless local area network. The device in question has a port for connecting a keyboard, a port for connecting a personal computer card, a video lens, a reader for a multimedia or secure digital card, and a receiver for receiving data from the satellite system of the global positioning system. Its second input is connected to the fourth output of the modem, and the output of the said receiver is connected to the second input of the application processor, the first input of the said receiver connected to the output of the second connector, the first input of which is connected to the output of the second antenna, the first input-output of the modem is connected to the first input - the output of the first connector, the second input-output of which is connected to the input-output of the first antenna, the input-output of the said external antenna is connected to the third input-output of the first connector, and the output of the said external antenna to a second input of the second connector. In this case, the second input-output of the modem is connected to the input-output of the SIM card reader, and the third input-output of the modem is connected to the input-output of the input-output port,

the fourth input-output of the modem is connected to the input-output of the power supply battery. In turn, the fifth input-output of the modem is connected to the first input-output of the application processor, the first output of the said modem is connected to the speaker input, and the first input of the modem is connected to the microphone output. Note that the second output of the modem is connected to the input of the vibrator, the third output of the modem is connected to the input of the call, and the fifth output of the modem is connected to the first input of the application processor. In this case, the second input of the modem is connected to the output of the external power supply port, the second input-output of the application processor is connected to the input-output of the said card reader, and the third input-output of the application processor is connected to the input-output of the wireless data reception / transmission device (Bluetooth). Finally, the fourth input-output of the application processor is connected to the input-output port for connecting a keyboard, the fifth input-output of the application processor is connected to the input-output port for connecting a personal computer card, the third input of the application processor is connected to the video lens output, the sixth input-output of the processor application connected to the input-output of the display, the seventh input-output of the application processor is connected to the input-output of a universal serial port I / O, the eighth input-output of the application processor connected to the input-output infrared input-output port.

The disadvantage of the prototype is the inability to receive-transmit and process (encoding-decoding, changing content and archiving) in the system of interactive communication of two-dimensional (2D) bar codes that he represents.

The task to which the claimed utility model is directed is to expand the range of services for the prompt and interactive provision of content to the consumer.

The technical result expected from the use of the claimed utility model is to expand the functionality of the interactive communication system in terms of ensuring its operation with a two-dimensional bar code.

The claimed technical result is achieved by the fact that according to the first embodiment, the interactive communication system consists of a center

communication, made with the possibility of information and communication interaction with the Internet, wireless and / or wired digital communication channels, and at least one subscriber terminal, equipped with at least an application processor, display, video camera, keyboard, uninterruptible power supply , a means of generating a unique identification number of the subscriber terminal and a transceiver unit consisting of a wireless communication module, a packet data transceiver modem and antenna, and this it further comprises at least one server connected to the Internet and configured to receive from the network and transfer to it a two-dimensional bar code, receive from the network and transfer to it alphanumeric content and / or image encoding the alphanumeric content and / or image into a two-dimensional barcode, decoding the two-dimensional barcode into alphanumeric content and / or the image, and editing the alphanumeric content and / or image, wherein the application processor Full to decode the received subscriber terminal for digital communication channels the two-dimensional barcode and generating a two-dimensional bar code of alphanumeric content and / or images independently or by reacting with said server.

Preferably, said server is connected to the Internet via a multiservice telecommunications gateway.

It is desirable that the server is equipped with a means for structuring two-dimensional barcodes, structuring alphanumeric content and / or images and archiving this information, as well as storing it in a database and / or in a subscriber’s personal account with editing capabilities.

It is advantageous that one of the means of providing wireless communication of a number be used as a communication center: GSM-communication, UMTC-communication, CDMA-communication, WiFi-communication, WiMax-communication, Bluetooth-communication, IR-communication, radio relay communication, satellite communication .

It is advisable that the communication center be equipped with a means of transmitting and receiving information over the TCP / IP protocol, preferably TCP / IP protocol version IP v.4 or TCP / IP protocol version IP v.6.

It is convenient that a keypad uses an alphanumeric or on-screen keyboard.

It matters that the uninterruptible power supply is a battery pack.

It is important that the battery pack is configured to charge the battery through an external electrical power supply port.

From a structural point of view, it is advantageous if the means for generating the unique identification number of the subscriber terminal is a SIM card reader.

It is appropriate that the antenna is in the form of an internal and / or external antenna.

It is important that the subscriber terminal is equipped with a microphone connected to the input of the transceiver module, as well as a speaker, vibrator and bell, the inputs of which are connected to the outputs of the transceiver unit.

It is advisable that a GPRS modem be used as the modem of packet data transceiver, and the subscriber terminal would be either a cell phone or a smartphone.

The claimed technical result is also achieved by the fact that according to the second embodiment of the claimed utility model, the interactive communication system is formed from a communication center configured to conduct information and communication interaction with the Internet, wireless and / or wired digital communication channels, and at least one subscriber terminal equipped with at least an application processor, display, video camera, keyboard, source

uninterruptible power supply, a means of generating a unique identification number of the subscriber terminal and a transceiver unit, consisting of a wireless module, a packet data transceiver modem and antenna, while the system is additionally equipped with at least one server that is connected to the Internet and made with the possibility of receiving from said network and transmitting a two-dimensional bar code into it, receiving from said network and transmitting alphanumeric content and / or image to it, encoding alphanumeric content and / or image into a two-dimensional bar code, decoding a two-dimensional bar code into alphanumeric content and / or image and editing alphanumeric content and / or image, while the application processor is configured to decode received by the subscriber terminal from the outside through the optical channel of a two-dimensional barcode and generating a two-dimensional barcode from the alphanumeric content and / or image autonomously or through interaction with the server.

Preferably, said server is connected to the Internet via a multiservice telecommunications gateway.

It is appropriate that the mentioned server was equipped with a means for structuring two-dimensional barcodes, structuring alphanumeric content and / or images and archiving this information, as well as storing it in the database and / or in the user's personal account with the ability to edit.

It is important that one of the means of providing wireless communication of a number is used as a communication center: GSM-communication, UMTC-communication, CDMA-communication, WiFi-communication, WiMax-communication, Bluetooth-communication, IR-communication, radio relay communication, satellite communication.

Preferably, the communication center should be equipped with a means of receiving and transmitting information via TCP / IP, preferably TCP / IP protocol version IP v.4 or TCP / IP protocol version IP v.6.

It matters that I use a button alphanumeric or on-screen keyboard as a keyboard.

Advantageously, the uninterruptible power supply is a battery pack.

Conveniently, the battery pack is configured to charge the battery through an external electrical power supply port.

It matters that the means for generating a unique identification number of the subscriber terminal is a SIM card reader.

It is advisable that the antenna is made in the form of an internal and / or external antenna.

From a design point, it is advantageous that the subscriber terminal is equipped with a microphone connected to the input of the transceiver module, as well as a speaker, vibrator and bell, the inputs of which are connected to the outputs of the transceiver unit.

It is important that a GPRS modem is used as the modem of packet data transceiver, and the subscriber terminal is either a cell phone or a smartphone.

The claimed utility model is illustrated by drawings. Figure 1 presents a block diagram of an interactive communication system; figure 2 shows a block diagram of a wireless subscriber terminal, and figure 3 and figure 4 contain image options for two-dimensional barcodes with different contents.

The list of positions:

1. Communication center.

11. Block transmit-receive.

12. The antenna of the communication center.

13. Means of providing reception and transmission of information over TCP / IP.

2. Wireless subscriber terminals.

21. The first subscriber terminal.

211. Application processor.

212. Display.

213. The camcorder.

214. Keyboard.

215. Uninterruptible power supply.

2151. The rechargeable battery.

2152. Port for supplying external electric power.

2153. Line for supplying external electric power.

216. Means of generating a unique identification number.

217. Receiving and transmitting unit.

2171. The wireless module.

2172. The modem of packet reception and transmission of data.

2173. The antenna of the subscriber terminal.

218. Microphone.

219. The speaker.

220. The vibrator.

221. The call.

222. Means of wireless reception and transmission of Bluetooth data.

223. Means of wireless reception and transmission of data WiFi (WiMAX).

224. Infrared (IR) I / O port.

2N. Nth subscriber terminal.

3. Additional server part.

31. Server.

32. Multiservice telecommunications gateway.

4. The Internet.

5. The system of wireless connection of the subscriber terminal via a computer.

51. Subscriber terminal with WiFi (WiMAX) -connection with a computer.

52. Computer with WiFi (WiMAX) -connection with the Internet.

6. A system for connecting a subscriber terminal via a computer using wired digital communication channels.

61. Subscriber terminal with USB-connection with a computer.

62. A computer with digital wired Internet connection.

N. The system of combined connection of the subscriber terminal via a computer.

N1. Subscriber terminal with IR-connection to a computer.

N2. Computer with wired digital Internet connection.

The proposed interactive communication system includes a communication center 1 (Figure 1), which interacts with wireless subscriber terminals 2 (Figure 1 and Figure 2). General principles for the construction and operation of communication center 1 (Figure 1), (alternatively referred to as the mobile network control center) of communication networks, are widely known, for example, from information sources [6] and [7]. In addition to the transmit-receive unit 11 (Fig. 1), the communication center 1 (Fig. 1) is equipped with an antenna of the communication center 12 (Fig. 1), which can be made in the form of a cellular radio mast [8], i.e. contain a foundation with a base fixed in it, an antenna pipe rack with communication cables and hollow sections with metal walls inside. The communication center 1 (FIG. 1) is also equipped with a means of transmitting information via TCP / IP 13 (FIG. 1), the task of which is to pair the functional elements of the radio channel (in particular, the transmit-receive unit 11 (FIG. 1)) with a digital (computer) communication network in terms of address packet data reception-transmission [9]. In the simplest case, the said tool can be implemented in hardware as one of the servers of the HP 9000 family or one of the servers of the HP Proliant DL family with the corresponding software product.

As the wireless subscriber terminals 2 (FIG. 1 and FIG. 2) in the claimed system can be used as cell phones (for example, brands NOKIA N95 or Sony Ericsson G900), and smartphones (for example, brands ASUS M930 or HP iPAQ 514 Voice Messenger). The first subscriber terminal 21 (FIG. 2) (as well as all other subscriber terminals, including the Nth subscriber terminal) comprises an application processor 221 (FIG. 2). To implement the functions of the mentioned processor, an Intel PXA800F chip can be used, which is a fully integrated processor for cell phones with a computing core

Based on Intel ^R XScope Technology with a clock frequency of 312 MHz. The display 212 (Figure 2) is used to display information, the choice of design of the latter is not fundamental. As the display 212 (FIG. 2), for example, UFB, TFT or OLED matrices can be used. The camcorder 213 (Figure 2), in addition to its original purpose in the design of a cell phone, provides for reading from the outside through the optical channel of the first subscriber terminal 21 (Figure 2) a two-dimensional bar code, which imposes certain requirements on optical resolution (in particular, the recommended the resolution of the video camera 213 (Figure 2), it is desirable to have at least 2 mega pix).

The keyboard 214 (FIG. 2) is designed to enter information into the first subscriber terminal 21 (FIG. 1 and FIG. 2) and to control the user's operation. In addition to the alphanumeric keypad in wireless subscriber terminals 2 (FIG. 1 and FIG. 2), an on-screen keyboard (for example, working without the use of a stylus (i.e., from the fingers) using the Windows Mobile operating system ( for example, an on-screen keyboard of the RESCO Keyboard PRO brand.) Uninterruptible power supply 215 (Fig. 2) serves to provide the terminal with electric energy. It is a battery 2151 (Fig. 2), as a rule, they use nickel-cadmium ( NiCd) Nickel Met allhydride (NiMH), lithium-ion (Li-ion) or lithium-polymer (Li-pol) batteries (the latter withstand only about 150 charge-discharge cycles). In the first subscriber terminal 21 (Figure 2) an external electric supply port is provided power supply 2152 (Fig. 2), due to which periodic charging of said battery 2151 (Fig. 2) is performed. To the external electric power supply port 2152 (Fig. 2) in this case (for the time of charging), an external electric power supply line 2153 is connected (Figure 2).

For purposes of identification in the communication network of each of the wireless subscriber terminals 2 (FIG. 1 and FIG. 2), a means for generating a unique identification number 216 (FIG. 2) is used, which physically, in particular, for a GSM communication network, is implemented as a reader SIM cards (SIM Subscriber Identification Module). For other types of digital wireless communications networks, such as 3G and CDMA, similar principles apply.

identifications implemented on USIM and R-UIM device platforms, respectively.

The radio exchange of the first subscriber terminal 21 (FIG. 1) with a communication center 1 (FIG. 1) provides a transmit-receive unit 217 (FIG. 2) formed from a wireless communication module 2171 (FIG. 2), a packet data transmit-receive modem 2172 (Figure 2) and antennas of the subscriber terminal 2173 (Figure 2). The wireless communication module 2171 (Fig. 2) and the packet data reception / transmission modem 2172 (Fig. 2) can be implemented as a single housing module for mounting on a board with an integrated TCP / IP protocol stack, for example, Q2406A-IP model (manufactured by Wavecom )

The transmit-receive unit 217 (FIG. 1) of the first subscriber terminal 21 (FIG. 2) is equipped with an antenna of the subscriber terminal 2173 (FIG. 2), which can be made external (in particular, in the form of a single or two-section helical antenna with a pin or without it), internal (microstrip flat antenna), or as a combination of both of the above structural types.

The functional purpose in the cell phones of the microphone 218 (FIG. 2), speaker 219 (FIG. 2), a vibrator (ie, “vibrating alert”) 220 (FIG. 2) and bell 221 (FIG. 2) is also known in the first the subscriber terminal 21 (FIG. 2) remains unchanged.

The means of wireless reception and transmission of data Bluetooth 222 (Figure 2) is used to organize high-frequency communication over short (up to 100 m) distances in the ISM band (2.4-2.8 GHz), while the signal spectrum is formed according to the FHSS method (Freguncy Hopping Spread Spectrum), providing a transfer rate of up to 2.1 Mbps.

Means of wireless reception and transmission of data WiFi (WiMAX) 223 (Figure 2) is intended for Wireless connection according to standards 802.11a, 802.11b, 802.11g (frequency 2.4 GHz) and standard 802.16d (frequency range 2-11 GHz), respectively access points to global digital communication networks and / or organization of local communication networks.

The operation of the infrared (IR) I / O port, which is one of the varieties of the wireless communication interface, is based on the protocol

IrDA (Infra red Data Assotiotion) version 1.1., Which provides half-duplex information exchange in the frequency range from 0.85 × 10 ^-6 to 0.90 × 10 ^-6 m (with a power peak at a frequency of 0.88 × 10 ^-6 m ) When placing the receiver and transmitter IR (Infra red) at a distance of 1 meter, the speed of reception and transmission of information between them can be up to 4 Mbit / s.

All other terminals that may be part of the group of wireless subscriber terminals 2 (FIG. 1 and FIG. 2), including the Nth subscriber terminal 2N (FIG. 1) are equipped like the first subscriber terminal 21 (FIG. 1 and FIG. 2).

As the server 31 (Figure 1) in the claimed system can be used one of the servers of the HP Proliant ML series with the appropriate software (for example. Windows Server 2003). To connect the server 31 (FIG. 1) to a digital communication network, a multi-service telecommunication gateway 32 (FIG. 1) is used, for example, the AddPac Technology multi-service router AP-2850. To the Internet 4 (Figure 1), any of the subscriber terminals can be connected via a wireless connection system via a personal computer 5 (Figure 1), i.e. the subscriber terminal 51 (FIG. 1) is equipped with WiFi (WiMAX) communication with a computer 52 (FIG. 1), which in turn is connected via another WiFi (WiMAX) communication channel to the Internet 5 (FIG. 1). To exchange information in an interactive communication system through a bunch of "subscriber terminal-computer" can be used and wired digital communication channels 6 (Figure 1). In this case, the subscriber terminal 61 (Fig. 1) communicates with the computer 62 via the USB cable (Fig. 1), and the latter, for example, through the use of the UC-110T adapter, on the one hand, connects to the Fast Ethernet via the RJ45 connector (network protocol IEEE 802.3U), and on the other hand, through a USB connector, connects to the USB host of computer 62 (Figure 1). In the case of a combined connection of the subscriber terminal via computer N (Fig. 1), the subscriber terminal N1 is equipped with IR communication means with the computer N2 (Fig. 1), while the said computer can be connected with a four-wire cable with RJ45 connectors through a modem (for example, a Motorola cable modem SURFboard SB5100) with the Internet 5 (Figure 1).

The claimed interactive communication system in the first embodiment operates as follows.

Example 1

As the wireless subscriber terminal 2 (FIG. 1), in particular the first subscriber terminal 21 (FIG. 1), a cell phone is used. In accordance with the instructions for its operation, the first subscriber terminal 21 (FIG. 1) is provided with identification means, i.e. a SIM card is inserted into the means for generating a unique identification number 216 (FIG. 2) made in said cell phone as a SIM card reader. Then, to the uninterruptible power supply 215 (FIG. 2), a power line 2153 (FIG. 2) is started (connected) to the external electric power supply port 2152 (FIG. 2), whereby the charging process of the battery 2151 (FIG. 2) is initiated. At the end of charging the battery 2151 (Figure 2) include a cell phone. The first subscriber terminal 21 (FIG. 1) is ready for operation. Similarly, any of the 2N (Fig. 1) subscriber terminals can be brought into operation.

Simultaneously with charging the uninterruptible power supply 215 (FIG. 2) or until at least one wireless subscriber terminal 2 (FIG. 1) is operational, an additional server part 3 is connected to the active Internet 4 (FIG. 1) ( Figure 1), consisting of a server 31 (Figure 1) and a multiservice telecommunication gateway 32 (Figure 1). The latter is connected between the Internet 4 (Figure 1) and the server 31 (Figure 1). Install additional software [10 and / or 11] on the server 31 (FIG. 1), and additional software (midlet) [12 and / or 13] on a cell phone.

The subscriber at the first subscriber terminal 21 (FIG. 1) through the keyboard 214 (FIG. 2) starts the operation of the midlet [12 and / or 13] and dials on the display 212 (FIG. 2) on the same keyboard 214 (FIG. 2) of interest its content, for example, “www.ucode.ru.” by the Application Processor 211 (FIG. 2), said content is encoded into a two-dimensional barcode of the form shown in FIG. 3-a. Further, through the transmit-receive unit 2173 (Fig. 3), having undergone the known digital processing in the modem of packet data reception-transmission 2172 (Fig. 2), said two-dimensional bar code is fed to the antenna

the subscriber terminal 2173 (FIG. 2) and, being radiated as an electromagnetic signal into the ether, is received at the antenna 12 (FIG. 1) of the communication center 1 (FIG. 1).

Having undergone processing in the transmitting and receiving unit 11 (Fig. 1) of the communication center 1 (Fig. 1), said signal carrying information on a two-dimensional bar code of the type shown in Fig. 3-a is fed to the input of the means for transmitting information via the protocol TCP / IP 13 (Figure 1). From its output, a signal in the form of an address data packet is addressed to the Internet 4 (Fig. 1), passes through a multiservice telecommunication gateway 32 (Fig. 1), and arrives at server 31 (Fig. 1). Depending on the tasks set by the subscriber, an incoming signal on the server that carries information about the two-dimensional bar code of the type shown in Fig. 3-a can be decoded into the original content, broadcast to other subscribers in the form of the obtained two-dimensional bar code and / or its corresponding original content, structured and / or archived, and / or stored in a database as digital data, etc. In addition, if on the server 31 under consideration (FIG. 1) the subscriber has a personal account (in the hardware-software (computer) sense of this term), then, in addition to the above operations of processing digital information received from the first subscriber terminal 21 (FIG. 1), this information can be edited both before and after decoding (i.e., a specific two-dimensional barcode received by server 31 (Fig. 1) can be assigned by the owner of a personal account different from the original (other) content, and vice versa source content Created by this subscriber by the first user terminal 21 (Figure 1) may be prescribed different from the original (the other) the two-dimensional bar code.

Example 2

The process of preparing at least one subscriber terminal 2 (FIG. 1) and connecting an additional server part 3 (FIG. 1) are performed in the present example in the same sequence as in example No. 1.

A cellphone (wireless subscriber terminal 2 (FIG. 1)) of said subscriber receives a call for communication from another subscriber, i.e. of

ether to the antenna of his cell phone 2173 (Figure 2) receives an address signal broadcast to the wireless communication module 2171 (Figure 2).

After appropriate transformations, the signal is supplied to the application processor 211 (Figure 2). Depending on the mode of operation of this cell phone predefined by the subscriber, the subscriber is notified of the incoming call either through the vibrator 220 (Figure 2), or through the call 221 (Figure 2), or simultaneously through both of these means of notification of an incoming call. When expressing consent to the connection, the said subscriber receives from the calling subscriber through the packet data reception / transmission modem 2172 (Figure 2) and is displayed on the screen of the called subscriber's display 212 (Figure 2) a two-dimensional barcode of the type shown in Figure 3- b. If the preset on the cell phone of the called subscriber is not set to automatically decode the incoming two-dimensional bar code, then the called subscriber on the cell phone (ie, subscriber terminal 21 (Figure 1)) via the keyboard 214 (Figure 2) starts midlet [12 and / or 13]. The application processor 211 (Figure 2) depicted in Figure 3-b two-dimensional barcode is decoded into the text "Hello everyone from Ucode" autonomously. It is also possible to decode a two-dimensional bar code by means of information and communication interaction with the server 31 (Fig. 1), which is important if the two-dimensional bar code received by the subscriber’s mobile phone is subject, for example, to dynamic changes (i.e., it is editable in part your content). In this case, the subscriber sends the received two-dimensional barcode, shown in Fig.3-b, through the interactive communication channel described in the previous example No. 1 to the server 31 (Fig.1), where it is decoded into specific content. The latter is sent from the server 31 (Fig. 1) to the cell phone of the interested subscriber and is displayed on the display 212 (Fig. 2) of its wireless subscriber terminal 2 (Fig. 1).

Example 3

The preparation of at least one subscriber terminal 2 (FIG. 1) and the connection of the additional server part 3 (FIG. 1) is carried out similarly to the preparation described in Example No. 1.

From the server 31 (FIG. 1), the transmission to the N-th subscriber of the interactive communication system 2N (FIG. 1) a two-dimensional bar code is initiated, the image of which is shown in FIG. 3-c.

The content encoded into a two-dimensional barcode, which is a numerical sequence of the form “+79096974201”, in the form of an address signal from server 31 (Figure 1) through a multi-service telecommunication gateway 32 (Figure 1) enters the Internet 4 (Figure 1) . Having reached the input of the means for ensuring the transmission of information via TCP / IP 13 (FIG. 1), this signal is structurally converted for the purposes of wireless transmission and then goes to the transmission / reception unit 11 (FIG. 1). Then, the aforementioned signal through the antenna 12 (Fig. 1) of the communication center 1 (Fig. 1) is broadcast and received on the antenna 2173 (Fig. 2) of the N-th subscriber terminal 2N (Fig. 1). Then it goes to the input of the modem packet data transmission 2172 (Figure 2) of the transmit-receive unit 217 (Figure 2), then it is transmitted to the input of the application processor 211 (Figure 2). After decoding in the above block, the received signal is displayed on the display 212 (Fig. 1) of the N-th subscriber in the form of a numerical sequence "+79096974201", which is the content of the two-dimensional bar code depicted in Fig. 3-c.

Example 4

The preparation of at least one subscriber terminal 2 (FIG. 1) and the connection of the additional server part 3 (FIG. 1) is carried out similarly to the preparation described in Example No. 1. In addition to the Internet 4 (FIG. 1), by organizing a WiMAX communication channel, a personal computer 52 (FIG. 1) is connected with a WiFi wireless card.

In the subscriber terminal 51 (Fig. 1), together with the computer 52 (Fig. 1) forming a system for wirelessly connecting the subscriber terminal via the computer 5 (Fig. 1) and representing a smartphone equipped with a WiFi connection, a midlet is installed [12 and / or 13]. On the keyboard 214 (FIG. 2) of the subscriber terminal 51 (FIG. 1), a set of content “www.ucode.ru” is produced and its subsequent encoding into a two-dimensional bar code, the view of which is shown in FIG. Then, the obtained two-dimensional barcode over the Internet 4 (Figure 1) in the form of a signal (for example, messages in the format

e-mail) is sent to the address of the personal account of another subscriber on the server 31 (Figure 1), for example, the owner of the first subscriber terminal 21 (Figure 1). The next time the first subscriber is connected to his personal account on server 31 (Fig. 1), the specified subscriber will detect a message sent to him in the form of a two-dimensional bar code and, at his discretion, is free to decode this two-dimensional bar code into content, or redirect the received information without decoding to other subscribers, and also send the “www.ucode.ru” content extracted from the two-dimensional barcode to the group of subscribers.

Example 5

The preparation of at least one subscriber terminal 2 (FIG. 1) and the connection of the additional server part 3 (FIG. 1) is carried out similarly to the preparation described in Example No. 1. As in the previous example No. 4, in addition to the Internet 4 (Figure 1) using a modem and cable, connect a personal computer 62 (Figure 1), equipped with a USB connector. A subscriber terminal 61 (FIG. 1) is connected via a USB cable to the computer 62 (FIG. 1), for example, made in the form of a smartphone (with software pre-installed in it [12 and / or 13]). Together, these devices form a subscriber terminal connection system through a computer using digital wired channels 6 (Figure 1).

On the keyboard 214 (FIG. 2) of the first (transmitting) subscriber terminal 21 (FIG. 1), a set of content such as “Hello everyone from Ucode” is produced and subsequently encoded into a two-dimensional bar code, the view of which is shown in FIG. 3-d. Then, the obtained two-dimensional bar code through the communication center 1 (Figure 1) and the Internet 4 (Figure 1) in the form of a signal (for example, SMS message) is sent to the address of the subscriber terminal 61 (Figure 1). After passing through the computer 62 (FIG. 1), this electronic message reaches the application processor 211 (FIG. 2) in the said smartphone, which is a user terminal with USB connection 61 (FIG. 1) with the computer 62 (FIG. 1). There, the message is decoded by the MIDlet program [12 and / or 13]. As a result, the content "Hello everyone from Ucode" is displayed on the display 212 (Figure 2) of the receiving subscriber.

Example 6

The preparation of at least one subscriber terminal 2 (FIG. 1) and the connection of an additional server part 3 (FIG. 1) is carried out similarly to the preparation disclosed in Example No. 1. As in the previous example No. 5, in addition to the Internet 4 (Figure 1), a personal computer N2 (Figure 1) equipped with an IR (infrared) communication board is connected via a cable. A subscriber terminal N1 (Fig. 1), for example, made in the form of a smartphone (with software pre-installed in it [12 and / or 13]), which together form a system the combined connection of the subscriber terminal via computer N (Figure 1).

From the memory of the application processor 211 (FIG. 2) of the first subscriber terminal 21 (FIG. 1), using the keyboard 214 (FIG. 1), content is extracted that is characterized by the sets of numbers “+79096974201” and displayed on the display 212 (FIG. 1). The subscriber of the said terminal sets the operation mode for sending the specified content to the personal account of the first subscriber, created on the server 31 (Figure 1). After sending the content "+79096974201" from the application processor 211 (Fig. 1) to the personal account of the first subscriber on the server 31 (Fig. 1) of the additional server part 3 (Fig. 1), the signal is transmitted through a packet data reception / transmission modem 2172 ( Figure 2), the antenna of the subscriber terminal 2173 (Figure 2) and, accordingly, the ether to the antenna of the communication center 12 (Figure 1). Further, the aforementioned signal is transferred to the input of the transmit-receive unit 11 (FIG. 1) and the input means of transmit-receive transmission via TCP / IP 13 (FIG. 1) is input, and from its output to the Internet 4 (FIG. 1) ) In accordance with the addressing, the signal under consideration through the multiservice telecommunication gateway 32 (Figure 1) is delivered to the server 31 (Figure 1). After encoding it on the server 31 (Fig. 1) in the personal account of the subscriber (owning the first subscriber terminal 21 (Fig. 1)), the content "+79096974201" in a two-dimensional bar code, an image is obtained, the view of which is shown in Fig.3- e. Through a multiservice telecommunications gateway 32 (FIG. 1), the aforementioned image (shown in FIG. 3-e) in the form of a corresponding electrical signal enters the Internet 4 (FIG. 1), and from it it is addressed through a wired channel (4 wired cable) digital

communication to the computer N2 (Figure 1). Then, through the infrared (IR) input / output port of the said computer, the signal converted for transmission is transmitted to the subscriber terminal N1 (FIG. 1), made on the basis of a smartphone. There it is decoded into the content "+79096974201". It should be noted that instead of the IR channel without difficulty, a digital communication channel using the Bluetooth 222 wireless data reception and transmission facility (FIG. 2) can be applied.

The claimed interactive communication system in the second embodiment is as follows.

Example 7

As a wireless subscriber terminal 2 (FIG. 1), in particular, a first subscriber terminal 21 (FIG. 1), a cell phone with an integrated video camera 213 is used (FIG. 2). In accordance with the instructions for its operation, the first subscriber terminal 21 (FIG. 1) is provided with identification means, i.e. a SIM card is inserted into the means for generating a unique identification number 216 (FIG. 2) made in said cell phone as a SIM card reader. Then, to the uninterruptible power supply 215 (FIG. 2), an electric power line 2153 (FIG. 2) is brought into the external electric power supply port 2152 (FIG. 2), whereby the battery 2151 is charged (FIG. 2). At the end of charging the battery 2151 (Figure 2) include a cell phone. The first subscriber terminal 21 (FIG. 1) is ready for operation. Any of 2N (Fig. 1) and / or 51-N1 subscriber terminals can be brought into operation similarly.

Simultaneously with carrying out the above operations in order to bring at least one wireless subscriber terminal 2 (Fig. 1) and / or 51-N1 to a usable state, an additional server part 3 is connected to the active Internet 4 (Fig. 1) Figure 1), consisting of the server 31 itself (Figure 1) and a multiservice telecommunication gateway 32 (Figure 1), which is information and communication connected between the Internet 4 (Figure 1) and the server 31 (Figure 1). Install on the server 31 (Figure 1) additional software [10 and / or 11], and on a cell phone (or smartphone) from the server 31 (Figure 1) with

preliminary consent of the subscriber transmit and activate (install) additional software (midlet) [12 and / or 13].

Then, the subscriber of the first subscriber terminal 21 (FIG. 1), having visually detected in the environment an image of a two-dimensional bar code (for example, on form A4 placed on the information stand of the organization), turns on the video camera 213 (FIG. 2) of the cell phone and, pointing her on the mentioned image, takes pictures. In this case, the captured frame is displayed on the display screen 212 (Figure 2) of the cell phone. In the manual mode (the subscriber starts the midlet program [12 and / or 13] via the keypad 214 (FIG. 2)) or the automatic processing mode the autonomous decoding of the two-dimensional barcode fixed in the said frame (for example, having the form in accordance with FIG. 3-a) in the relevant content. As a result of decoding, a text link of the form “www.ucode.ru” appears on the display 212 (FIG. 2). This content is a static source of information about a specific address of the organization on the Internet 4 (Figure 1).

Example 8

As a wireless subscriber terminal 2 (FIG. 1), in particular, a first subscriber terminal 21 (FIG. 1), a cell phone with an integrated video camera 213 is used (FIG. 2). Preparation of at least the first subscriber terminal 2 (FIG. 1) for operation and connection of the additional server part 3 (FIG. 1) is performed in the same way as in example No. 7. Preparation of the second subscriber terminal N1 (FIG. 1) from the combined connection system of the subscriber terminal via computer N (FIG. 1) having IR connection with computer N2 (FIG. 1), which in turn is connected to the Internet 4 (FIG. 1) through a wired digital connection, consists in obtaining by this subscriber terminal from the additional server part 4 (Fig. 1) software [12 and / or 13] along the route: server 31 (Fig. 1), multiservice telecommunication gateway 32 (Fig. .1), the Internet 4 (Figure 1), computer N2 (Figure 1), an IR communication channel and a subscriber cue terminal N1 (1). In the application processor 211 (FIG. 2) of the subscriber terminal N1 (FIG. 1), the received midlet is installed.

Thus, the subscriber terminal N1 (FIG. 1) also becomes suitable for working with two-dimensional barcodes.

When the subscriber visually detects the subscriber terminal 21 (FIG. 1) in his environment, the image of a two-dimensional bar code (for example, in the form of a nameplate at the stop of public transport), the subscriber turns on the video camera 213 (FIG. 2) of his cell phone and, pointing it at said image, takes a photograph of the two-dimensional barcode depicted on the nameplate. Its image, for example, in the form of an SMS message, the subscriber of the first subscriber terminal 21 (Fig. 1) can send to the subscriber of the second subscriber terminal N1 (Fig. 1) to estimate the time of their meeting taking into account the time spent on the journey. A feature of the two-dimensional barcode photographed at the stop of public transport of the type corresponding, for example, to the image of Fig. 3-b, is that this barcode is dynamic. In other words, a personal account of the transport company is created on the server 31 (Fig. 1), on which a specific two-dimensional barcode corresponds to a schedule of movement of specific vehicles carrying passengers through the mentioned public transport stop. Information from this personal account regarding the location of units public transport, undergoes dynamic update in real time over the Internet 4 (Figure 1) along the route: local area network information and communication the center of the transport company servicing the carriage of passengers, the Internet 4 (Fig. 1), a multi-service telecommunications gateway 32 (Fig. 1), a server 31 (Fig. 1) and then the personal account of the said transport company. When removed by the subscriber of the subscriber terminal 21 ( Figure 1) the photo frame is displayed on the display screen 212 (Figure 2) of this subscriber's cell phone, then in automatic mode the application processor 211 (Figure 1) generates a request to the server 31 (Figure 1) to connect to the personal account of the transport company mentioned above . The request signal is transmitted to the wireless communication module 2171 (Fig. 2), then, processed for broadcasting, it is transmitted to the antenna of the subscriber terminal 2173 (Fig. 2) and, propagating through the air, is received by the antenna of the communication center 12 (Fig. 1). Then it is transmitted to the input of the transmit-receive unit 11 (FIG. 1) and, having passed the means of providing transmit-receive via TCP / IP 13 (FIG. 1), it

to the Internet 4 (Figure 1). Having highlighted the address at the multiservice telecommunication gateway 32 (FIG. 1), the above-mentioned signal is fed to the input of the server 31 (FIG. 1) and thereby commutes the subscriber of the subscriber terminal 21 (FIG. 1) with the personal account of the mentioned transport company. After that, a photographed two-dimensional bar code shown in Fig. 3-b is transferred to the personal account of the transport company from the cell phone of the specified subscriber for decoding. It passes through the above information and communication route (except that from the application processor 211 (Figure 2) a two-dimensional bar code is transmitted to the antenna of the subscriber terminal 2173 (Figure 2) not through the wireless communication module 2171 (Figure 2), and through the modem of packet data reception-transmission 2172 (Figure 2)) and is dynamically decoded into content. The content content, for example, is the location of specific public transport units (for example, expressed in minutes remaining before arriving at the stop of a particular vehicle), where the photographed two-dimensional bar code is placed (in particular, shown in Fig. 3-b) is displayed in content at the time of decoding by the server 31 (Fig. 1) of the two-dimensional bar code received from the subscriber of the subscriber terminal 21 (Fig. 1). The content thus obtained from the dynamic two-dimensional barcode is transmitted back to the subscriber of the first subscriber terminal 21 (FIG. 1) via the information and communication route: server 31 (FIG. 1), multiservice telecommunication gateway 32 (FIG. 1), Internet 4 ( Figure 1), a means of providing transmission and reception of information via TCP / IP 13 (Figure 1), a transmit-receive unit 12 (Figure 1), a communication center antenna 11 (Figure 1), a radio broadcast, a transmitter-receiver block 217 (FIG. 2), the application processor 211 (FIG. 2) and is then displayed on the display 212 (FIG. 2). The second subscriber of the subscriber terminal N1 (Fig. 1), the considered content received by him from the first subscriber of the subscriber terminal 21 (Fig. 1) of a two-dimensional bar code can be received from the server 31 (Fig. 1) through a multiserver telecommunication gateway 32 (Fig. 1), the Internet 4 (FIG. 1), a computer N2 (FIG. 1) and an IR communication channel to an infrared input-output port 224 (FIG. 2). As wireless means of receiving and transmitting data, Bluetooth 222 (FIG. 2) or WiFi (WiMAX) 223 (FIG. 2) can also be used.

The device proposed in the framework of the claimed utility model can be implemented on well-known IT components and means of communication without their hardware refinement, which allows us to conclude that it meets the eligibility condition of the utility model “industrial applicability”

INFORMATION SOURCES

1. Utility model of the Russian Federation No. 32655, IPC ⁷ H04M 3/00, publ. September 20, 2003

2. Utility model of the Russian Federation No. 311183, IPC ⁷ Н04В 1/38, publ. 07/20/2003 g.

3. Utility model of the Russian Federation No. 42675, IPC ⁷ G08B 23/00, publ. December 10, 2004

4. Utility model of the Russian Federation No. 52544, IPC ⁷ Н04В 7/25, publ. 03/27/2006

5. Utility model of the Russian Federation No. 37581, IPC ⁷ Н04В 1/38, publ. 04/27/2004

(prototype)

6. “Block diagram and composition of communication network equipment”, www.aboutphone.info.

7. The invention of the Russian Federation No. 2237286, IPC ⁷ Н04В 1/38, publ. 09/27/2004

8. Utility model of the Russian Federation No. 30151, IPC ⁷ Е04Н 12/08, publ. 06/20/2003

9. “Computer networks. The First Step ”, author: Wendell Odom, M, translation from English, Williams Publishing House, 2006, 432 p.

10. Certificate on state registration of computer programs of the Russian Federation No. 20088614300 “Ucode interactive communication system. Server part ”of July 11, 2008

11. Application for state registration of a computer program of the Russian Federation No. 20088614164 “Interactive communication system. Management Platform ”dated September 11, 2008

12. Certificate on state registration of computer programs of the Russian Federation No.2008614301 “Interactive communication system Ucode. Mobile Phone Application ”dated July 11, 2008

13. Application for state registration of a computer program of the Russian Federation No. 20088614163 “Interactive communication system. Midlet "from September 11, 2008

Claims (24)

1. An interactive communication system, consisting of a communication center, configured for information and communication interaction with the Internet, wireless and / or wired digital communication channels, and at least one subscriber terminal equipped with at least an application processor, display, camcorder, keyboard, uninterruptible power supply, means for generating a unique identification number of the subscriber terminal and a transceiver unit consisting of a wireless module connection, a packet data reception and transmission modem and antenna, characterized in that it further comprises at least one server connected to the Internet and configured to receive from the said network and transmit a two-dimensional bar code into it, received from said network and transfer to it alphanumeric content and / or image, encoding alphanumeric content and / or image into a two-dimensional bar code, decoding a two-dimensional bar code into alphanumeric content and / or image and editing alphabetically -DIGITAL content and / or image, wherein the application processor is configured to decode the received subscriber terminal for digital communication channels the two-dimensional barcode and generating a two-dimensional bar code of alphanumeric content and / or images independently or by reacting with said server. 2. The system according to claim 1, characterized in that said server is connected to the Internet through a multiservice telecommunications gateway. 3. The system according to claim 1, characterized in that said server is equipped with a means for structuring two-dimensional barcodes, structuring alphanumeric content and / or images and archiving this information, as well as storing it in the database and / or in the user's account with the ability to edit. 4. The system according to claim 1, characterized in that as the communication center use one of the means of providing wireless communication of a number: GSM-communication, UMTC-communication, CDMA-communication, WiFi-communication, WiMax-communication, Bluetooth-communication, IR -communication, radio relay communication, satellite communications. 5. The system according to claim 1, characterized in that the communication center is equipped with a means of receiving and transmitting information via TCP / IP, preferably TCP / IP version IP v.4 or TCP / IP version IP v.6. 6. The system according to claim 1, characterized in that as the keyboard using a button alphanumeric or on-screen keyboard. 7. The system according to claim 1, characterized in that the uninterruptible power supply is a battery pack. 8. The system according to claim 7, characterized in that the battery pack is configured to charge the battery through the external electric power supply port. 9. The system of claim 8, characterized in that the means for generating a unique identification number of the subscriber terminal is a SIM card reader. 10. The system according to claim 1, characterized in that the antenna is made in the form of an internal and / or external antenna. 11. The system according to claim 1, characterized in that the subscriber terminal is equipped with a microphone connected to the input of the transceiver module, as well as a speaker, vibrator and bell, the inputs of which are connected to the outputs of the transceiver unit. 12. The system according to claim 1, characterized in that a GPRS modem is used as a modem of packet data reception and transmission, and the subscriber terminal is either a cell phone or a smartphone. 13. An interactive communication system consisting of a communication center configured to communicate with the Internet, wireless and / or wired digital communication channels, and at least one subscriber terminal equipped with at least an application processor, display, camcorder, keyboard, uninterruptible power supply, means for generating a unique identification number of the subscriber terminal and a transceiver unit consisting of a wireless module connection, a packet data reception and transmission modem and antenna, characterized in that it further comprises at least one server connected to the Internet and configured to receive from the said network and transmit a two-dimensional bar code into it, received from said network and transfer to it alphanumeric content and / or image, encoding alphanumeric content and / or image into a two-dimensional bar code, decoding a two-dimensional bar code into alphanumeric content and / or image and editing alphabetically o-digital content and / or image, wherein the application processor is capable of decoding a two-dimensional bar code received by the subscriber terminal from the outside through the optical channel and generating a two-dimensional bar code from the alphanumeric content and / or image autonomously or by interacting with said server . 14. The system according to claim 1, characterized in that said server is connected to the Internet via a multiservice telecommunication gateway. 15. The system according to claim 1, characterized in that said server is equipped with a means for structuring two-dimensional barcodes, structuring alphanumeric content and / or images and archiving this information, as well as storing it in the database and / or in the user's account with the ability to edit. 16. The system according to claim 1, characterized in that as the communication center use one of the means of providing wireless communication of a number: GSM-communication, UMTC-communication, CDMA-communication, WiFi-communication, WiMax-communication, Bluetooth-communication, IR -communication, radio relay communication, satellite communications. 17. The system according to claim 1, characterized in that the communication center is equipped with a means of receiving and transmitting information via TCP / IP, preferably TCP / IP version IP v.4 or TCP / IP version IP v.6. 18. The system according to claim 1, characterized in that as the keyboard I use a button alphanumeric or on-screen keyboard. 19. The system according to claim 1, characterized in that the uninterruptible power supply is a battery pack. 20. The system according to claim 7, characterized in that the battery pack is configured to charge the battery through the external electric power supply port. 21. The system of claim 8, characterized in that the means for generating a unique identification number of the subscriber terminal is a SIM card reader. 22. The system according to claim 1, characterized in that the antenna is made in the form of an internal and / or external antenna. 23. The system according to claim 1, characterized in that the subscriber terminal is equipped with a microphone connected to the input of the transceiver module, as well as a speaker, vibrator and bell, the inputs of which are connected to the outputs of the transceiver unit. 24. The system according to claim 1, characterized in that a GPRS modem is used as the modem of packet data reception and transmission, and the subscriber terminal is either a cell phone or a smartphone.