RU2420013C1 - Mobile station of confidential telephone communication - Google Patents

Abstract

FIELD: information technologies. ^ SUBSTANCE: mobile station of confidential telephone communication additionally includes subscriber lines (SL) and four-wire connecting lines (CL), the first and the second unit of the cable input (CI), a unit of subscriber cross, a unit of cross-switching of information flows (IFCC), the second cryptographic unit, a telephonic gateway with a connected liquid crystal display and a keyboard, a four channel basic station of DECT system and one and more special microcellular telephones with cryptosecurity and an inbuilt antenna. ^ EFFECT: expansion of the station functional capabilities and increased throughput capacity of arranged communication directions. ^ 1 dwg

Description

The invention relates to techniques for telephone communications and can be used to provide confidential telephone communications on communication networks of state, departmental, corporate and financial structures.

There are known systems and devices for maintaining confidential telephone communications, including a confidential communications device, which contains a speech-conversion device analyzer (RPU analyzer), a speech activity control unit, a pseudo-random sequence generator (GPS), a drive, a cipher block, an asynchronous block conversions, buffer, multiplexer, linear block, and in the receiving path a linear block, demultiplexer, buffer, asynchronous conversion block, synchronization recovery block GPS, and RPU, GPS, a drive, a cipher block, a pause generator for voice activity, a switch, an RPU synthesizer, and also contains a block for generating clock sequences (block for generating clock frequencies) [1, 2].

The known device is used individually and provides for maintaining confidential communication on one line or communication channel. In order to provide confidential communication in the network for two or more users, it is necessary to increase the number of such devices, which is economically disadvantageous, since the user will not use this device most of the time.

Closest to the technical nature of the present invention is a classified communication system comprising a telephone, a data transceiver, an automatic telephone exchange (PBX), a speech-converting device (RPU), three switching units, a cryptographic unit, a digital information transceiver and a signal analysis unit, described in [3].

A disadvantage of the known system is the low bandwidth of the channels and directions of telephone communication organized in the network.

The aim of the invention is to expand the functionality of the station and increase the throughput of organized communication directions.

This goal is achieved by the fact that subscriber lines (AL), the first and second cable entry units (KB), the subscriber cross unit, the cross unit are introduced into a confidential telephone communication station containing telephone sets, an automatic telephone exchange (PBX) and a cryptographic unit information flow switching (KKPI), a second cryptographic unit, a telephone gateway, to the corresponding inputs and outputs of which a liquid crystal monitor and keyboard are connected, a four-channel base station of the DECT system, consisting of a channel cross, a base station controller (BS), a BS multiplexer, a first BS transceiver with a transceiver antenna, a second BS transceiver with a transceiver antenna, a third BS transceiver with a transceiver antenna and a fourth BS transceiver with a transceiver antenna, n special microcell phones with crypto A built-in antenna, the telephone exchange consists of a subscriber unit block, a channel set block, a switching field unit, a serving device unit (OP), a control unit station and the operator’s workstation unit (RMI), consisting of a laptop computer and a printing device (printer), while telephone sets are connected via AL to the linear inputs and outputs of the first HF unit, the station inputs and outputs of which are connected to the linear inputs and outputs of the unit a subscriber cross, station I / O of which is connected to the first inputs and outputs of the block of subscriber sets of automatic telephone exchanges, the second inputs and outputs of which are connected to the first inputs and outputs of the switching field unit, the second input - the outputs of which are connected to the station inputs and outputs of the channel sets block, the third inputs and outputs of the switching field unit are connected to the first inputs and outputs of the OP unit, the second inputs and outputs of which are connected to the information inputs and outputs of the portable computer of the RMO unit, to the corresponding input and output which is connected to a printing device (printer), the inputs and outputs of the portable computer of the PMO unit are connected to the information inputs and outputs of the station control unit, the first, second, third and fourth control whose inputs and outputs are connected to the control inputs and outputs of the subscriber set block, channel set block, switching field block, and OP unit, the first channel inputs and outputs of the channel set block are connected to the first station inputs and outputs of the KKPI block, whose linear inputs and outputs connected to the station inputs and outputs of the second HF unit, to the linear inputs and outputs of which four-wire SLs are connected, the second station inputs and outputs of the KKPI unit are connected to the linear inputs and outputs the first cryptographic block, the station inputs and outputs of which are connected to the second channel inputs and outputs of the channel sets block, the third channel inputs and outputs of which are connected to the station inputs and outputs of the second cryptographic block, the linear inputs and outputs of which are connected to the third station inputs and outputs of the KKPI block , the fourth channel inputs and outputs of the channel sets block are connected to the first inputs and outputs of the telephone gateway, the second inputs and outputs of which are connected to the first inputs and outputs the cross channel of the four-channel base station of the DECT system, the second inputs and outputs of which are connected to the information inputs and outputs of the BS controller, the control inputs and outputs of which are connected to the third inputs and outputs of the channel cross, the fourth inputs and outputs of which are connected to the first inputs and outputs of the BS multiplexer , the second inputs and outputs of which are connected to the fifth inputs and outputs of the cross-channel, the sixth, seventh, eighth and ninth inputs and outputs of which are connected to the channel inputs and outputs, respectively, of the first receiver BS transmitter, second BS transceiver, third BS transceiver and fourth BS transceiver, the output of the high-frequency part of the first BS transceiver is connected to the input of the transceiver antenna, the output of which is connected to the input of the high-frequency part of the first BS transceiver, the output of the high-frequency part of the second BS transceiver is connected to the input of the transceiver the output of which is connected to the input of the high-frequency part of the second BS transceiver, the output of the high-frequency part of the third transceiver the BS is connected to the input of the transceiver antenna, the output of which is connected to the input of the high-frequency part of the third transceiver BS, the output of the high-frequency part of the fourth transceiver BS is connected to the input of the transceiver antenna, the output of which is connected to the input of the high-frequency part of the fourth transceiver BS, the input-output of the transceiver antenna of each of the four BS transceivers over the air are connected respectively to the input-output of the built-in antenna of one of n special microcell phones with cryptographic protection Total, the tenth inputs and outputs of the cross-channel are connected to the inputs and outputs of the portable computer block RMO.

Comparative analysis with the prototype shows that the proposed confidential telephone communication mobile station is characterized by the presence of new units: AL and SL, two HF units, a CCI unit, a second cryptographic unit, a telephone gateway with a liquid crystal monitor and keyboard connected to it, a four-channel base station of the DECT system, consisting of a cross channel, a BS controller, a BS multiplexer, four BS transceivers with transceiver antennas and n special microcell phones with cryptographic protection and all a triple antenna, performing an automatic telephone exchange, consisting of a subscriber set block, a channel set block, a switching field block, an OP block, a station control unit, a PMO block, consisting of a laptop computer and a printing device (printer), as well as changing communications between known blocks. Moreover, the proposed system uses group cryptographic protection of the information transmitted in the channel (digital stream E1) and additionally in the channels of the base stations of the DECT system, which helps to increase the throughput of organized communication directions and the degree of protection of the transmitted information.

Thus, the claimed mobile station confidential telephone service meets the criteria of the invention of "novelty." Comparison of the proposed solutions with other technical solutions shows that the newly introduced blocks are well known to specialists in this field of technology and additional creativity for their reproduction is not required.

This solution is significantly different from the known solutions in the art. The claimed solution explicitly does not follow from the prior art and has an inventive step.

This allows us to conclude that the technical solution meets the criterion of "significant differences".

The inventive solution can be implemented using existing blocks and devices used in electrical engineering, and is industrially applicable.

The drawing shows a structural electrical diagram of a mobile station confidential telephone service.

A confidential telephone communication mobile station contains telephones 1, AL 2, the first 3 KV block, a subscriber cross block 4, ATS 5 consisting of a block 6 of subscriber sets, a block of 7 channel sets, a block 8 of a switching field, a block of 9 OP, a control block of 10 station and block 11 RMI, consisting of a laptop computer 12 and a printing device (printer) 13, four-wire SL 14, the second block KV 15, block 16 KKPI, the first cryptographic block 17, the second cryptographic block 18, a telephone gateway 19 to which the liquid crystal is connected A personal monitor 20 and a keyboard 21, a four-channel base station 22 of the DECT system, consisting of a cross channel 23 channels, a BS 24 controller, a BS 25 multiplexer, a first BS 26 transceiver with a transceiver antenna 27, a second BS 28 transceiver with a transceiver antenna 29, and a third BS 30 transceiver with a transceiver antenna 31 and a fourth BS 32 transceiver with a transceiver antenna 33, n of special microcellular telephones 34 with cryptographic protection and a built-in antenna.

The equipment of the confidential telephone communication mobile station is located in a van on the chassis of a cross-country vehicle. At the same time, the station body-van is divided into two compartments: front and rear. In the front compartment, for the entrance to which a side door is provided, the equipment of the four-channel base station of the DECT system is placed. In the rear compartment are the remaining blocks and devices of the mobile station.

As a wagon body, a K3.4310 type wagon mounted on the KamAZ-43101 car chassis can be used.

Telephone sets 1 via AL 2 are connected to the linear inputs and outputs of the first 3 HF unit, the station inputs and outputs of which are connected to the linear inputs and outputs of unit 4 of the subscriber cross, the station inputs and outputs of which are connected to the first inputs and outputs of unit 6 of the PBX 5 subscriber sets The second inputs and outputs of block 6 of the subscriber sets are connected to the first inputs and outputs of block 8 of the switching field, the second inputs and outputs of which are connected to the station inputs and outputs of block 7 of the channel sets, the third inputs and outputs The switching field unit 8 is connected to the first inputs and outputs of the OP 9 unit, the second inputs and outputs of which are connected to the information inputs and outputs of the portable computer 12 of the RMI unit 11, to which a printing device (printer) is connected to the corresponding input and output 13. Inputs and outputs laptop 12 are connected to the information inputs and outputs of the station control unit 10, the first, second, third and fourth control inputs and outputs of which are connected to the control inputs and outputs of the unit 6 of the subscriber computer ects channel unit 7 sets the switching unit 8 and the field OP 9 block.

The first channel inputs and outputs of the block 7 channel sets are connected to the first station inputs and outputs of the KKPI block 16, the linear inputs and outputs of which are connected to the station inputs and outputs of the second 15 KV block, the four-wire SL 14, the second station inputs are connected to the linear inputs and outputs of it the outputs of the KKPI block 16 are connected to the linear inputs and outputs of the first 17 cryptographic block, the station inputs and outputs of which are connected to the second channel inputs and outputs of the block of channel sets 7, the third channel inputs dy-exits of which are connected to the station inputs and outputs of the second cryptographic block 18, the linear inputs and outputs of which are connected to the third station inputs and outputs of the KKPI block 16, the fourth channel inputs and outputs of the channel sets block are connected to the first inputs and outputs of the telephone gateway 19, the second the inputs and outputs of which are connected to the first inputs and outputs of the cross 23 channels of the base station 22 of the DECT system, the liquid crystal monitor 20 is connected via an adapter to the telephone gateway 19, the keyboard controller of which is connected İnönü to the inputs-outputs of the keyboard 21.

The second inputs / outputs of the cross of 23 channels of the base station 22 of the DECT system are connected to the information inputs and outputs of the controller BS 24, the control inputs and outputs of which are connected to the third inputs and outputs of the cross of 23 channels, the fourth inputs and outputs of which are connected to the first inputs and outputs of the BS multiplexer 25, the second input-output of which is connected to the fifth input-output of the cross-channel, the sixth, seventh, eighth and ninth input-output of which is connected to the channel input-output, respectively, of the first 26 transceiver BS, the second 28 riemoperedatchika BS, the third transceiver 30, BS 32 and BS fourth transceiver.

The output of the high-frequency part of the first 26 BS transceiver is connected to the input of the transceiver antenna 27, the output of which is connected to the input of the high-frequency part of the first 26 BS transceiver, the output of the high-frequency part of the second 28 transceiver BS is connected to the input of the transceiver antenna 29, the output of which is connected to the input of the high-frequency part of the second 28 transceiver BS, the output of the high-frequency part of the third 30 BS transceiver is connected to the input of the transceiver antenna 31, the output of which is connected to the input of the high-frequency otnoy third portion 30 BS transceiver, the high frequency output of the fourth BS transceiver 32 is connected to the input of transceiver antenna 33, whose output is connected to the input of the high frequency part 32 of the fourth BS transceiver.

The input-output of the transceiver antenna (27, 29, 31, and 33) of each of the four (26, 28, 30, and 32) BS transceivers over the air is connected respectively to the input-output of the built-in antenna of one of the n special microcellular phones 34 with cryptographic protection.

The tenth inputs and outputs of the cross of 23 channels are connected to the inputs and outputs of the portable computer 12 of the RMI unit 11 for tuning and monitoring the status of the base station 22 of the DECT system.

As telephone sets 1 on subscriber lines 2, telephone sets of the Selenit-2 type, manufactured by the domestic industry and designed to operate on two-wire lines in telephone networks where confidential negotiations are conducted, can be used.

The first 3 and second 15 HF units include connecting elements, connectors and are designed to connect, respectively, AL 2 circuits, at the other end of which telephone sets 1 are turned on, and four-wire SL circuits, through which digital streams E1 formed or transmitted by external means are received or transmitted channel formation (by wire means, radio relay stations and satellite communication stations).

Block 4 subscriber cross contains switching elements and protection elements of the lines and maintenance personnel from dangerous voltages and short circuit currents. It is intended for operational switching of subscriber lines when they fail, monitoring and measuring parameters of connected lines.

As a block 4, a subscriber-cross unit of the BAK-40F type can be used, a block diagram, the capabilities and technical implementation of which are given in [4].

ATS 5 is a small-sized automatic telephone exchange with autonomous control, built on a modular hardware-software principle using a common system bus. The adapter cards and the calculator provide information in the circuit of the communication network of various types with specified probability-time characteristics by using a single transmission and switching technology based on standard network protocols and subscriber interfaces. ATS 5 is built on a modular basis in terms of hardware and software and provides switching, multiplexing and speech conversion of subscriber information.

Voice signals and other types of information are transmitted inside the switching equipment of the station via a system bus with an information transfer rate of, for example, 8192 Kbit / s, and using the digital method for in-house encoding of voice messages with a transmission rate of 64 Kbit / s.

ATS 5 of the above composition is designed to deploy a subscriber wire network and organize automatic confidential telephone communication between local subscribers, as well as to provide access to external communication channels and mobile radio channels through DECT base station 22 and digital streams E1 formed by external channelization equipment and connected to the station by trunk.

ATS 5 is designed to work in special telephone networks and provides the organization of the following networks and types of communication:

1) the organization of automatic telephone communications at enterprises and institutions (industrial and administrative buildings) as an institutional-production automatic telephone exchange (UPATS);

2) the creation of various departmental (corporate) geographically distributed automatic and semi-automatic communication networks as a transit, transit-terminal or terminal long-distance telephone exchange. When used as a terminal station, a subscriber-to-subscriber-trunk connection is provided, and a transit station provides a trunk-trunk connection;

3) the removal of the capacity of large exchanges using standard digital SL with the speed of information transfer and analog SL;

4) automatic intra-station communication between all subscribers of the station according to abbreviated numbering or automatic subscriber communication with the help of an operator by establishing a connection between local subscribers;

5) automatic outgoing communication to subscribers of other telephone exchanges of the network (TS) of telephone special communication;

6) automatic incoming communication from subscribers of other vehicles of the telephone special communication network;

7) outgoing, incoming automatic and semi-automatic communication in the zone and intercity telephone special communications network;

8) automatic switching of transmitted messages between incoming / outgoing trunk lines (transit connection);

9) the operational establishment, maintenance and disconnection of connections between information channels in automatic mode or with the help of an operator;

10) organization, operational management, maintenance and disconnection of connections between the operator’s workplace and local line subscribers and long-distance channel subscribers;

11) asynchronous pairing between information channels in a switched connection when transmitting signals in the direction of a separate information channel.

The process of establishing a connection is controlled by route-address cards.

Intermodular (interblock) information-logical interaction in the station circuit is provided via address-code buses through appropriate controllers and through unified interfaces. At the same time, the station uses a digital method of in-house speech coding with a transmission rate of 64 Kbit / s according to the A-law.

The station automatically detects errors and malfunctions in both hardware and software and initiates corrective actions after indicating and diagnosing errors in order to restore a working configuration.

Block 6 subscriber sets has a fixed number of sets (by the number of connected subscribers) with the possibility of expanding the subscriber capacity.

The block of 7 channel sets has similar capabilities. In addition, block 7 includes an E1 physical interface converter based on analog-to-digital and digital-to-analog converters, with the help of which digital streams are formed with an increased information transfer rate.

The PBX 5 software is designed to work under the Windows 2000 / XP operating system.

As a portable computer 12 of block 11 of RMO, a Notebook computer can be used, containing a processor no worse than a Pentium-4 processor with a clock frequency of 2.0 GHz, 256 MB RAM, at least 80 GB hard disk, and flexible magnetic disk drives disks and USB-portable, CD-ROM, COM and USB ports, Touch Pad graphic manipulator, integrated sound card and acoustic speakers, 15-inch monitor, as well as incorporating application software based on Windows XP.

Block KKPI 16 is intended for connection, non-operational switching and distribution of digital information streams and channels formed by external channelization equipment and received via trunk lines to PBX devices 5, first 17 and second 18 cryptographic blocks.

The first 17 and second 18 cryptographic blocks are designed to protect information transmitted through digital streams and communication channels using cryptographic methods for converting information, in particular by encrypting data, including the process of converting open data to encrypted using a cipher, and decrypting data including the process converting closed data to open using a cipher.

The telephone gateway 19 is intended for converting analog speech and service signals into a digital sequence, organizing packets from this sequence and transmitting them to the mobile radio communication network, for receiving packets and restoring a digital sequence - digital speech and service signals and their reverse conversion to analog form, and also encryption and decryption of mobile radio channels formed by the station 22 of the DECT system and microcellular phones 34 with cryptographic protection.

One interface (for example, E1 / T1) of the telephone gateway is connected to the telephone network through block 7 of channel sets of ATS 5, and the other is connected to the channel network of the base station 22 of the DECT system. The gateway receives a telephone signal, digitizes it (if it is analog), compresses it, splits it into IP packets and sends it to the router. At the reception, the gateway performs the inverse transformation of packets coming from the router into a telephone signal.

The main functions performed by the telephone gateway during the point-to-point connection are as follows: implementing a physical interface with a communication network, detecting and generating subscriber signaling, converting subscriber signaling into data packets and vice versa, converting a speech signal into data packets and vice versa , connecting subscribers, transmitting signaling and voice packets over the network, disconnecting the established connection after the end of negotiations between subscribers. Packet and telephone signal conversion operations are performed simultaneously, which allows for duplex (two-way) conversation. Traditional voice calls require a bandwidth of 64 Kbit / s, but after they are compressed, it only takes 8-12 Kbit / s.

As a telephone gateway 19, an industrial controller containing a Pentium processor, RAM, a slot with an ISA bus, a Dialogic card, a T1 / E1 interface card, and Windows NT Workstation 4.0 operating system can be used. In this case, the RTP / RTCP protocols are used in accordance with recommendation H.323 of the International Telecommunication Union.

The liquid crystal monitor 20 is designed to display data on the state of information transmission paths and processes of establishing a connection in the network. As the liquid crystal monitor 20, a 15 inch monitor may be used.

Keyboard 21 is a standard keyboard for personal electronic computers. It is designed to enter information into the telephone gateway controller 19. A model for IBM PC AT and others can be used as such a keyboard.

The base station 22 of the DECT system refers to subscriber radio access systems and is designed to organize the communication of mobile radio subscribers with the PBX 5 or with a digital network with service integration (ISDN) on the AL site through the DECT digital radio technology radio channel.

The base station 22 of the DECT system together with wearable special microcellular phones 34 with cryptographic protection is designed to deploy a network and organize a telephone encrypted mobile radio communication system. The system implements a radio interface based on the principles of frequency duplex and time division of channels.

The DECT standard used in base station 22 is based on digital radio data transmission between BSs and radiotelephones using Time-Division Multiple Access (TDMA) technology. At the same time, full duplex communication is provided using Time-Division Duplexing (TDD).

The range of radio frequencies used for reception / transmission is in the range from 1880 to 1900 MHz. At the same time, the operating range (20 MHz) is divided into 10 radio channels, each of 1.728 MHz. Information is exchanged by personnel. Twenty-four (24) time slots are created in each frame using time division, which provide 12 duplex channels for voice reception / transmission. When establishing a connection for a conversation, two of the twenty-four time slots in each frame are used: one is used for voice transmission, the other for reception.

The use of the DECT system does not require frequency planning.

For configuration of equipment and continuous monitoring of the entire system, the base station has a control controller, and telemetry channels are organized between the base station and subscriber stations. Network management covers all the blocks of the system; the user interface is based on an integrated web server. Automatic fault diagnosis is provided.

A cross of 23 channels is intended for connecting, monitoring the state, switching and distribution of channels of transmitting / receiving channels formed by four BS transceivers of the base station 22 to consumers. Cross 23 channels can be implemented using standard switching elements, including multi-pair Krone skirtings and connecting wires.

The BS 24 controller is designed to organize a microcellular radio communication system and to ensure the junction of the equipment of the base station 22 of the DECT system with ATS 5, to control the BS transceivers and ensure the functioning of the DECT network. On the interface with the exchange, the controller provides the transmission of a single E1 stream or channels of type 30B + D.

The multiplexer 25 is designed to combine the channels formed by the BS transceivers into a single stream E1.

The transceivers 26, 28, 30, and 32 included in the base station 22 transfer the signal spectrum to a predetermined frequency range. In addition, each BS transceiver provides up to 4 talk channels.

As part of the base station 22, sector antennas 27, 29, 31 and 33 are used with a predetermined radiation pattern width, for example 60, 90 and 360 degrees.

As sector antennas, antennas of the SPA 1900/85/8/0 / DS type of the base station of the DECT system can be used.

To increase the range of radio communications, a mast device on which four SPA antennas are installed can be included in the structure of a confidential telephone communication mobile station. In this case, the antenna mounting device on the mast allows manual adjustment with subsequent fixation of the communication direction at the place of operation of the confidential telephone communication mobile station.

Each of n microcellular phones 34 with cryptographic protection and built-in antenna is a portable subscriber radio unit (PARB) made in the form of a portable cordless radiotelephone intended for use by mobile subscribers.

The microcellular telephone has a digital logic part consisting of a digital signal processor, a channel equalizer, a channel encoder / decoder, a SIM card, ADC and DAC converters, a keypad and a display field. The logical part performs the tasks of demodulating, encoding, compressing and restoring the speech signal, and processing information input from the typesetting field. It displays the necessary information on the display screen, exchanges information with a SIM card that provides authentication of the subscriber and data encryption.

KTS mobile station provides the following types of communication and operation modes:

1) the deployment of a subscriber network of automatic confidential telephone communications using PBX 5 and the maintenance of automatic intra-station communication between subscribers of the station by abbreviated numbering, automatic outgoing and incoming communication with subscribers of other telephone exchanges;

2) encryption of two E1 streams using the first and second cryptographic blocks;

3) deployment of a telephone encrypted mobile radio network using a telephone gateway, a DECT base station and wearable special micro-cell phones with cryptographic protection;

4) management and configuration of the PBX 5 using a portable computer unit RMO;

5) control and configuration of the base station of the DECT system using a laptop computer 12 block 11 RMO.

For the normal operation of the mobile station during the deployment of the subscriber network, the electrical characteristics of the AL and four-wire SL should be measured to make sure that they are in good working order and that they comply with the required standards.

The type of communication (inter-office, local or long-distance) is determined by the first digits of the called subscriber's number, for example, number 1 indicates inter-office communication, figure 8 - inter-city communication.

Automatic in-station communication between station subscribers is carried out by abbreviated numbering, for example, by dialing three numbers on the telephone set of a subscriber.

A PBX call is detected by regular scanning of both subscriber and trunk lines. To receive dialing, a dialing receiver is connected to the AL. When a call is received via AL, it is served in the following sequence: a call is detected during scanning, the random access memory of the station control unit transmits the telephone number of the calling subscriber, the subscriber’s category and type of telephone are determined, and based on the received data, the PBX work program is selected, which is aimed at finding free paths from the AK block of subscriber kits to the dialer through a free cord kit.

The path for establishing a connection and conducting telephone communication includes: the telephone set 1 of the calling subscriber, AL 2, the first block 3 KB, block 4 subscriber cross, for example, the first subscriber set block 6 subscriber sets ATS 5, block 8 switching field, block OP 9, block 8 switching field, the subscriber set of the called subscriber block 6 ATS 5, block 4 of the subscriber cross, the first 3 block KV, AL 2, telephone 1 of the called subscriber.

At the same time, subscribers are automatically connected as for regular telephone exchanges [4]: the subscriber picks up the phone, receives the station ready signal, he dials the number of the subscriber he needs, listens for the ready signal (continuous tone), and then the subscriber’s response or the subscriber’s busyness (frequent short beeps).

The connection of subscribers involves the formation of a path (route) both inside and between the components of the station. Management of all the processes of establishing a connection and communication is carried out under the influence of control signals of the station control unit 10 and the laptop 12 of the RMI unit 11.

Ending a conversation is also automatic.

After one of the subscribers hangs up, the connection is disconnected, and the “End call” signal is sent to the side of the second subscriber.

In this case, the analogue information from the telephone set 1 of the calling subscriber is sent via AL 2 to the first 3 HF unit and through block 4 is sent to the subscriber set of unit 6 of the PBX 5. In the subscriber set of unit 6, the analog signal is converted using an analog-to-digital converter (ADC) in digital form, the formation of a parallel parallel code, which is fed to the system bus for transmission to another channel (communication line).

In the opposite direction, in block 6, the incoming digital signal from the parallel code is converted into a serial one, which is fed to the input of a digital-to-analog converter (DAC), where it is converted to an analog signal. From the output of block 6, an analog signal through block 4 of the subscriber cross, the first 3 block of HF and AL 2 is supplied to the telephone set of 1 subscriber.

To ensure the exchange of ATS 5 with AL 2, the subscriber set of block 6 contains a call signal isolator, a “lever” switch, a pulse dial key, a programmable logic integrated circuit (FPGA), a conversation path circuit including amplifiers in the transmit and receive path, and a differential circuit for suppressing local effect. At the same time, the information circuits of reception and transmission are galvanically isolated using transformers.

The communication technology over radio channels and long-distance channels formed by external channelization equipment, in principle, does not differ from the technology for communicating on subscriber lines. The difference is that along with the extension number, the address also contains the subscriber number of the far station.

Communication of subscribers over long-distance channels in automatic mode is carried out as for subscribers of conventional exchanges.

The subscriber of the calling station picks up the telephone, receives the station’s ready signal, dials the number of the channel (communication node) he needs, listens for the Hold signal (long beeps with extended pauses) and then the ready signal (continuous tone) or station busy (frequent short beeps).

Having received the ready signal, the subscriber of the calling station dials the number of the subscriber he needs, listens for the sending of the ring signal (long beeps with extended pauses), and then the subscriber’s response or the subscriber’s busy (frequent short beeps).

After the conversation is completed (subscriber busy), the subscriber hangs up, initiating the sending of the “Hang up” signal to the station, which is broadcast to the called station and its subscriber.

The communication path includes: the telephone of the calling subscriber 1, AL 2, the first 3 HF unit, the unit 4 of the subscriber cross, the unit 6 of the PBX 5 sets, the block 8 of the switching field, the block of 7 channel sets, the first 17 or second 18 cryptographic block, KKPI block 16, second 15 KV block, four-wire SL 14 and then the signal is transmitted via the long-distance communication channel to the opposite station.

In this case, the analog signal from the output of the telephone set 1 of the calling subscriber is transmitted via AL 2 through blocks 3 and 4 to the input of block 6 of the telephone exchange 5, in which it is converted to digital form, switched by block 8 to block 7 of channel sets, in block 17 or 18, information the signal is encrypted by imposing a cipher and transmitted through blocks 16 and 15 to a four-wire trunk line 14 and then it arrives at the opposite station to the called party.

At the opposite station, the encrypted signal from the output of the trunk 14 through the second 15 block HF and block 16 is fed to the input of the first 17 or second 18 cryptographic block. In block 17 (18), the cipher is removed and the information signal is restored in digital form. From the output of block 17 or 18, the open information signal in digital form is fed to the channel set of block 7, switched by block 8 to the corresponding subscriber set of block 6, in which the information signal is converted from digital to analog form. Next, the analog signal from the output of block 6 through blocks 4, 3 and AL 2 is fed to the input of the telephone set 1 of the called subscriber.

Confidential telephone communications over the radio channels of the base station 22 of the DECT system are carried out along the path, including: telephone set 1, AL 2, the first 3 HF unit, block 4 subscriber cross, block 6 subscriber sets ATS 5, block 8 switching field, block OP 9, block 7 channel sets, telephone gateway 19, cross 23 channels of the base station 22 of the DECT system, one of four (26, 28, 30 and 32) BS transceivers, one of four (27, 29, 31 and 33) transceiver antennas and an integrated antenna 34 cell phones with cryptographic protection.

The processes of establishing a connection and communicating on the site from the telephone set 1 to the unit 7 channel sets are carried out similarly as described above.

When transmitting information, digital signals from the output of block 7 channel sets are input to the telephone gateway 19, in which open information is converted by encryption and through a cross of 23 channels is fed to the input of one of the BS transceivers. In the BS transceiver, the encrypted information is converted into a radio signal and transferred to the operating frequency range, radiated by the antenna and transmitted over the air to the input of the micro-cellular telephone 34. In the micro-cellular telephone 34, the received radio signal is converted to intermediate frequency signals, amplified and fed to the ADC, where conversion to a digital signal necessary for the signal processor to work. Then the cipher is removed and the digital signal is converted to an analog signal, which is fed to the loudspeaker (speaker).

In the transmission mode from the micro-cellular telephone 34, the speech signal from the microphone is fed to the ADC input, which converts the analog speech signal into a digital signal and supplies it to the signal processor, which generates an information digital signal and which, after applying a cipher to it, is transmitted to the transmitter input. In the transmitter, the digital information signal is converted into a radio signal, which, after amplification to the required level, enters the antenna and radiates it into space. The radio signal transmitted by the antenna of the microcellular telephone 34 is received by one of the four (27, 29, 31 and 33) antennas and transmitted to the input of the high-frequency part of the corresponding BS transceiver (26, 28, 30 and 32). From the output of the BS transceiver, the radio channel through a cross of 23 channels and the BS 25 multiplexer is fed to the input of the telephone gateway 19, in which the cipher is removed, the digital information signal is selected and transmitted to the input of the block 7 channel sets. Next, the digital signal through blocks 7, 8 and 9 is fed to the called subscriber set of block 6 of the PBX subscriber sets 5, in which the digital information signal is converted into an analog signal and, through blocks 4, 3 and AL 2, is sent to the telephone set 1 of the called subscriber.

Outgoing and incoming communication with the semi-automatic method of servicing subscribers is carried out through the operator of the exchange 5 using a laptop 12 of the block 11 RMA.

For the organization of official exchange between the operator and the station, a standard RS232 interface is used.

When receiving a call from a subscriber, the operator, having talked with the subscriber and receiving the order, selects a search algorithm by which he will search for the network subscriber.

Establishing a connection and negotiating is carried out similarly to the processes described above. The difference lies in the fact that calls from subscribers come to block 11 of the RMO and all operations are carried out by the station operator. At the same time, the operator maintains a constant exchange with service stations through service channels, and provides control of the process of channel switching at the request of subscribers. For this, the operator has at his disposal a multi-window graphic system for displaying operational information and database information.

The technical effect of the proposed confidential telephone communication mobile station is to expand the functionality, increase the throughput of communication lines organized by the station and increase the degree of protection against unauthorized access to information transmitted via AL and SL (communication channels) along the entire transmission path from the local subscriber telephone communication to a remote subscriber included in communication channels.

This is achieved by encrypting information using two cryptographic units, a telephone gateway with a built-in encoder, using special telephones and micro-cell phones with cryptographic protection of the transmitted information in the radio channel.

In addition, in the proposed mobile station of confidential telephone communication through the implementation of functional monitoring and automatic diagnosis by software methods of the state of the switching equipment and control devices, automatic search and replacement of failed devices is ensured, their operability is maintained, which leads to a decrease in failures and an increase in the reliability of the station contributes to the expansion of services, the emergence of additional types of services and improve the quality of service ab onents.

Information sources

1. Patent RU No. 2117401, cl. H04K 1/00, 1998.

2. US patent No. 4016372, cl. H04M 1/72, NKI 179-99, 1977.

3. Certificate for utility model RU No. 18036, class. H04K 1/00, 2001 (prototype).

4. Military switching systems and telephony. B.A. Gordienko, V.N. Filippov, L.P. Shcherbina. / Ed. B.A. Gordienko - YOU, 1984.

5. T.I. Ivanova. Subscriber terminals and computer telephony. - M .: Eco-Trends, 1999.

Claims (1)

A mobile confidential telephone communication station containing telephone sets, an automatic telephone exchange (PBX) and a cryptographic unit, characterized in that subscriber lines (AL), first and second cable entry units (KB), a subscriber cross-country unit, a cross switching unit are introduced into it information flows (KKPI), a second cryptographic unit, a telephone gateway, to the corresponding inputs and outputs of which a liquid crystal monitor and keyboard are connected, a four-channel base station of the DECT system, consisting of a cross and channels, a base station controller (BS), a BS multiplexer, a first BS transceiver with a transceiver antenna, a second BS transceiver with a transceiver antenna, a third BS transceiver with a transceiver antenna, and a fourth BS transceiver with a transceiver antenna, n microcell phones with cryptographic protection, and ATS consists of a block of subscriber sets, a block of channel sets, a block of a switching field, a block of service devices (OP), a control block of a station, and a block of work why the operator’s place (RMO), consisting of a laptop computer and a printing device (printer), while the telephone sets are connected via AL to the line inputs and outputs of the first KB unit, the station inputs and outputs of which are connected to the line inputs and outputs of the subscriber unit, station the inputs and outputs of which are connected to the first inputs and outputs of the PBX subscriber set unit, the second inputs and outputs of which are connected to the first inputs and outputs of the switching field unit, the second inputs and outputs of which are connected with station inputs and outputs of the channel unit block, the third inputs and outputs of the switching field unit are connected to the first inputs and outputs of the OP unit, the second inputs and outputs of which are connected to the information inputs and outputs of the portable computer of the RMO unit, to which the printing device is connected to the corresponding input and output (printer), the inputs and outputs of the portable computer of the PMO unit are connected to the information inputs and outputs of the station control unit, the first, second, third and fourth control inputs and outputs of which are connected to the control inputs and outputs of the subscriber set block, channel set block, switching field block and block OP, the first channel inputs and outputs of the channel set block are connected to the first station inputs and outputs of the KKPI block, the linear inputs and outputs of which are connected to the station inputs - the outputs of the second KB block, to the linear inputs and outputs of which four-wire SLs are connected, the second station inputs and outputs of the KKPI block are connected to the linear inputs and outputs of the first cryptographic a unit whose station inputs and outputs are connected to the second channel inputs and outputs of the channel sets unit, the third channel inputs and outputs of which are connected to the station inputs and outputs of the second cryptographic unit, the linear inputs and outputs of which are connected to the third station inputs and outputs of the KKPI unit, fourth channel inputs and outputs of the channel sets block are connected to the first inputs and outputs of the telephone gateway, the second inputs and outputs of which are connected to the first inputs and outputs of the four channel cross the base station of the DECT system, the second inputs and outputs of which are connected to the information inputs and outputs of the BS controller, the control inputs and outputs of which are connected to the third inputs and outputs of the channel cross, the fourth inputs and outputs of which are connected to the first inputs and outputs of the BS multiplexer, the second inputs - the outputs of which are connected to the fifth inputs-outputs of the cross-channel, the sixth, seventh, eighth and ninth inputs and outputs of which are connected to the channel inputs-outputs of the first BS transceiver, second transceiver, respectively BS transmitter, third BS transceiver and fourth BS transceiver, the output of the high-frequency part of the first BS transceiver is connected to the input of the transceiver antenna, the output of which is connected to the input of the high-frequency part of the first BS transceiver, the output of the high-frequency part of the second BS transceiver is connected to the input of the transceiver antenna, the output of which is connected the input of the high-frequency part of the second BS transceiver, the output of the high-frequency part of the third BS transceiver is connected to the input a transmitting antenna, the output of which is connected to the input of the high-frequency part of the third BS transceiver, the output of the high-frequency part of the fourth transceiver BS is connected to the input of the transceiver antenna, the output of which is connected to the input of the high-frequency part of the fourth BS transceiver, the input-output of the transceiver antenna of each of the four BS transceivers is connected via ether respectively, with the input-output of the built-in antenna of one of the n microcellular phones with cryptographic protection, tenth channel cross-channel inputs and outputs connected to the inputs and outputs of a portable computer unit RMO.