RU2359410C1 - Mobile unit of portable communication - Google Patents

Abstract

FIELD: physics, communication.

SUBSTANCE: invention is related to electric communication engineering and may be used for organisation of communication and rendering services of information exchange to mobile teams of experts for performance of works in area that is not equipped with stationary facilities and means of communication, and also to provide coupling with existing communication systems. Mobile unit of portable communication comprising satellite communication set has two technological automated workplaces introduced, as well as satellite modem, switchboard of lines and group tracks, Ethernet circuit board, server, unit for distribution and switching of local computer network (LCN) users, telephone set of system Internet Phone, two workplaces of operator, two telephone sets of telephone confidential communication, digital ministation of DECT system, remote base station of mobile radio communication of DECT system with antenna, subscriber lines of telephone confidential communication and LCN line.

EFFECT: expansion of functional resources and increased throughput capacity of communication directions organised by unit.

4 cl, 4 dwg

Description

The invention relates to telecommunication technology and can be used to organize communications and provide information exchange services to field teams when performing work on a terrain not equipped with stationary means and communication complexes, as well as to ensure interfacing with existing communication systems of various ministries and departments.

Currently, the existing mobile satellite networks and cellular networks use various subscriber fixed and mobile or wearable stations, with which subscribers can exchange information between themselves separately in each of the communication networks. For subscribers of one network to go to another network, additional devices will be required or communication between them can be provided only through special switching centers. This leads to a significant increase in the time to establish a connection and to the inability to provide communication between subscribers of different networks due to the use of different types of terminal tools with different operation algorithms. At the same time, more and more often, various services of ministries and departments have to fulfill their tasks and interact with each other when performing various activities, for example, in eliminating the consequences of emergency situations.

It is known that personal radio communication based on cellular terrestrial networks is one of the fastest growing areas of communication. The use of radio communications in the subscriber area allows you to access the communication channel when moving objects in the space of subscribers. At the same time, it remains possible to connect to a moving subscriber by his fixed number.

However, it should be borne in mind that in areas of low population density, including in Russia, the use of terrestrial cellular radio systems outside large cities will be extremely inefficient economically. Therefore, it is proposed to use combined communication networks built on the basis of satellite communications and cellular radio systems for this purpose.

This is justified by the fact that personal satellite communication stations have a number of advantages compared to other mobile communication systems. For example, if the user is outside the service area of local cellular systems, satellite communications plays a key role, since it has no restrictions on binding to a specific terrain. In many regions of the world, the demand for mobile services can only be met with the help of satellite systems.

The well-known mobile mobile communications unit contains a satellite communication station as part of an antenna system, a device for separating transmission and reception paths, a transceiver, channelization equipment, a control unit and a guidance system, a switching unit, a router, a laptop computer, a small-sized printer, a fax machine, a navigation station as a part transceiver, antenna and mobile data terminal, automatic channel switcher, trunked radio communication base station with antenna, mobile carrier station hydrochloric radio communication with the antenna, the subscriber line telephony, n handheld mobile radio stations, telephone PBX system wired links and block operator position [3].

The well-known mobile node mobile communications provides two-way telephone communication and data exchange with direct subscribers of similar stations and other ground stations in satellite communications networks.

The main disadvantage of the known mobile communication center is that it does not provide for the organization of a confidential communication network and has a low throughput of communication lines organized by it.

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

The objective of the invention is the creation of a mobile mobile communications node for multifunctional purposes, providing the ability to deploy subscriber telephone networks of open and confidential communications, the organization of a mobile communication network in areas not equipped with stationary means and communication systems, with the transmission of data, voice, documentary data formed from the communication node and video information, as well as the possibility of interfacing with existing communication systems of various ministries and departments.

The inventive combination of elements and communications allows us to achieve this goal due to the original combination of instruments and devices used in public telephone networks, mobile radio networks and satellite communications, both in their direct and non-standard applications.

When studying well-known technical solutions in this technical field, the totality of features that distinguish the claimed object was not identified. The proposed solution is significantly different from the currently known technical solutions.

The claimed solution explicitly does not follow from the prior art and has an inventive step.

The inventive mobile node mobile communications can be implemented using existing communication tools and equipment used on telecommunication networks and computer networks, and is industrially applicable. Tests of the manufactured sample of the proposed mobile mobile communications unit showed that it is operational and ensures the achievement of the goal.

This goal is achieved by the fact that in a mobile mobile communications unit containing a satellite communications station as part of an antenna system, a device for separating the transmission and reception paths, a transceiver, channelization equipment, a station control unit and a guidance system, a router, a portable computer, a small-sized printer, an automatic channel switch, the main base station of a mobile radio communication with an antenna, telephone subscriber lines, telephone set of an automatic telephone system with ides (ATS), while the input-output of the antenna system is connected to the input-output of the device for separating the reception and transmission paths, the output of which is connected to the input of the high-frequency part of the transceiver, the output of the intermediate frequency path of which is connected to the linear input of the channelization equipment, the linear output of which is connected to the input of the intermediate frequency path of the transceiver, the output of the high-frequency part of which is connected to the input of the device for separating the transmission and reception paths, the control input-output of the channel equipment of education is connected to the first control input-output of the station operation control unit, the second control input-output of which is connected to the first input-output of the guidance system, the second input-output of which is connected to the control input-output of the antenna system, the first and second technological workstations are introduced (AWT), satellite modem, line and group path switch, Ethernet board, server, local area network (LAN) user distribution and switching unit, line input unit, telephone Internet Phone (IP) systems, the first operator’s workstation (RMO) as part of a laptop computer and scanner, the second RMO as a part of a laptop computer and small-sized printer, two telephone telephones for telephone confidential communication, digital mini-ATS of wireless access system (DECT), remote base station of mobile radio communication with an antenna, the first and second group of subscriber radio terminals of the DECT system, subscriber telephone lines of confidential communication and LAN lines, and the channel input-output of station channeling equipment satellite communication is connected to the linear input-output of a satellite modem, the station input-output of which is connected to the first input-output of the switch of lines and group paths, the second input-output of which is connected via the Ethernet board to the first input-output of the server, the second input-output of which is connected with the first input of the router, the second input-output of which is connected to the first input-output of the LAN users distribution and switching unit, the second input-output of which is connected to the input-output of the laptop of the second RMO, and the first and fourth inputs and outputs of the LAN user distribution and switching unit are connected respectively to the inputs and outputs of the small-sized printer and to the first station input-output of the line input unit, the second station inputs and outputs of which are connected to the third inputs and outputs of the router and to linear inputs and outputs telephone sets of telephone of confidential communication, the linear input-output of the telephone set of the IP system is connected to the third input-output of the switch of lines and group paths and to the third station go-output block input lines, the fourth input-output switch lines and group paths is connected to the first input-output of a laptop computer of the first RMO, the second input-output of which is connected to the input-output of the scanner, the fifth inputs and outputs of the switch lines and group paths are connected to linear inputs and outputs of a digital mini-automatic telephone exchange of the DECT system, the channel inputs and outputs of which are connected to the station inputs and outputs of an automatic channel switcher, the channel inputs and outputs of which are connected to the channel inputs and outputs of the main base a mobile radio communication station, which is connected via an antenna via radio interfaces to the antennas of the first group of DECT subscriber radio terminals and to an antenna of a remote mobile radio communication station, which is connected by radio interfaces to the antennas of the second group of DECT subscriber radio terminals, and to the first, second and third line inputs - the outputs of the line input unit are connected respectively to the subscriber telephone lines of the IP system, the subscriber telephone lines of confidential communication and the LAN, the first and the second inputs and outputs of the first AWP at the RS-232 interface are connected to additional control inputs and outputs of the station operation control unit and the satellite communications station guidance system, respectively, the first AWP is connected to the second AWP via a network port, the first, second, and third control inputs and outputs which are connected to the control inputs and outputs of the server, router, and distribution and switching unit of the LAN users, while information signals are exchanged between the first and second AWT , control and interaction signals, as well as data on the status of satellite communication channels formed by a satellite communication station, channels and communication lines of a mobile communication network formed by primary and remote mobile radio base stations and DECT digital mini-automatic telephone exchange.

Comparative analysis with the prototype shows that the inventive mobile mobile node is characterized by the presence of new units: the first and second AWT, satellite modem, line and group path switch, Ethernet card, server, distribution and switching unit for LAN users, line input unit, telephone system IP, the first RMO as part of a laptop computer and scanner, the second RMO as part of a laptop computer and small-sized printer, two telephones for telephone confidential communication, digital ATS audio DECT systems, the remote base station to the mobile radio antenna, the first and second groups of subscriber radio terminals DECT system, a telephone subscriber lines and confidential communication line LAN and changing relations between the known blocks.

Thus, the claimed mobile node mobile communications meets the criteria of the invention of "novelty." Comparison of the proposed solution with other technical solutions shows that the blocks newly introduced into the proposed mobile mobile node are realizable, are well known to specialists in this field of technology and additional creativity, given the explanations below, for their reproduction is not required.

However, when they are introduced in this connection with the remaining elements of the circuit into the inventive mobile mobile node, the above blocks exhibit new properties, which include expanding the functionality and increasing the throughput of communication directions organized by the node, achieved by the possibility of deploying subscriber networks of open and confidential telephone communications, LAN and organization of the mobile radio subsystem, the use of the same channels and communication lines simultaneously for voice transmission messages, textual and documentary information with increased transmission speed.

Figure 1 shows the structural electrical diagram of the proposed mobile mobile node, figure 2 shows the structural diagram of a personal computer of the first and second AWT, and figure 3 and 4 shows the structural diagrams of a portable computer, respectively, of the first and second RMO.

The proposed mobile mobile communication unit (Fig. 1) contains a satellite communication station 1 as part of an antenna system 2, a device for separating 3 transmission and reception paths, a transceiver 4, channelization equipment 5, a control unit 6 of the station and guidance system 7, the first 8 AWP, satellite modem 9, 10 lines and group paths switch, 11 Ethernet board, server 12, router 13, LAN user distribution and switching unit 14, 15 line input unit, IP telephone 16, first 17 RMOs as part of laptop 18 and scanner 19, the second 20 AWPT, two telephone sets 21 (21 ₁ , 21 ₂ ) of telephone confidential communication, the second 22 РМО as a part of a portable computer 23 and a small-sized printer 24, digital mini-ATS 25 of the DECT system, base station 26 of the mobile radio system of the DECT system with antenna 27, the first group of subscriber radio terminals 28 (28 ₁ -28 _n ) of the DECT system, the remote base station 29 of mobile radio communications of the DECT system with antenna 30, the second group of subscriber radio terminals 31 (31 ₁ -31 _n ) of the DECT system, subscriber lines 32 telephone IP system communications, 33 telephone lines constant confidential communication line 34 and the LAN.

The first 8 and second 20 AWPT includes (Fig. 2) a personal computer 35, which contains a system unit 36 consisting of a motherboard 37, on which a microprocessor 38, a system bus (bus) 39, RAM 40, a reprogrammable ROM 41, and keyboard controller 42, monitor adapter 43, 44 port adapter, 45 disk controller, 46 additional device controller, 47 hard disk magnetic disk, 48 floppy disk drive 48, system 49 software and special application software 50, left on the hard disk drive 47 of the magnetic disk, and the audio I / O board 51, and also includes a plasma display 52, a standard keyboard 53, and a mouse type graphic manipulator 54.

The portable computer 18 of the first 17 RMOs contains (Fig. 3) a system unit 55 consisting of a motherboard 56 on which a microprocessor 57, a system trunk 58, RAM 59, a reprogrammable ROM 60, and a keyboard controller 61, monitor adapter 62, adapter 63 ports , a controller for 64 disks, a controller 65 for additional devices, a hard magnetic 66 disk, a drive 67 for connecting a flexible magnetic disk, system software 68 and special application software 69 supplied on a hard disk drive 66 ma magnetic disk, and also contains a display 70 with a plasma screen, a standard keyboard 71 and a graphic manipulator 72 such as a "mouse".

The portable computer 23 of the second 22 RMI contains (Fig. 4) a system unit 73 consisting of a motherboard 74 on which a microprocessor 75, a system trunk 76, RAM 77, a reprogrammable ROM 78 and a keyboard controller 79, monitor adapter 80, port adapter 81 are located , controller 82 drives, controller 83 additional devices, hard magnetic 84 drives, drive 85 for connecting a flexible magnetic drive, system software 86 and special application software 87, which is supplied on a hard drive 84 ma magnetic disk, and also contains a display 88 with a plasma screen, a standard keyboard 89 and a graphic manipulator 90 of the type of "mouse".

The input-output of the antenna system 2 of the satellite communication station 1 is connected to the input-output of the separation device 3 of the reception and transmission paths, the output of which is connected to the input of the high-frequency part of the transceiver 4, the output of the intermediate frequency path of which is connected to the linear input of the channelization equipment 5, the linear output of which is connected with the input of the intermediate frequency path of the transceiver 4, the output of the high-frequency part of which is connected to the input of the separation device 3 of the transmission and reception paths, the control input-output app perature channeling 5 is connected to a first control input-output station 6, the operation control unit, second control input-output of which is connected to the first input-output of the guidance system 7, the second input-output of which is connected to the control input-output of the antenna system 2.

The channel input-output of the channelization equipment 5 of the satellite communication station 1 is connected to the linear input-output of the satellite modem 9, the station input-output of which is connected to the first input-output of the switch 10 lines and group paths, the second input-output of which is connected via Ethernet 11 to the the first input-output of the server 12, the second input-output of which is connected to the first-input of the router 13, the second input-output of which is connected to the first input-output of the distribution and switching unit of 14 LAN users, the second input-output of which first connected to the input-output of a portable computer 23 of the second 22 OWS. The third and fourth inputs and outputs of the distribution and switching unit of 14 LAN users are connected respectively to the inputs and outputs of the small-sized printer 24 and to the first station input and output of the line input unit 15, the second station inputs and outputs of which are connected to the third inputs and outputs of the router 13 and line inputs and outputs of telephone sets 21 telephone confidential communication.

The linear input-output of the telephone apparatus 16 of the IP system is connected to the third input-output of the switch 10 lines and group paths and to the third station input-output of the block 15 input lines, the fourth input-output of the switch 10 lines and group paths is connected to the first input-output of the portable computer 18 of the first RMI, the second input-output of which is connected to the input-output of the scanner 19. The fifth inputs and outputs of the switch 10 lines and group paths are connected to the linear inputs and outputs of the digital mini-ATS 25 of the DECT system, the inputs and outputs of the first subscriber of which kit are connected to the linear inputs and outputs of the main 26 base station of the mobile radio system of the DECT system, which is connected via antennas 27 via radio interfaces to the antennas of the first group of 28 subscriber radio terminals of the DECT system, the inputs and outputs of the second subscriber set of the digital mini-ATS 25 of the DECT system are connected to the linear inputs and outputs of the remote base 29 station of the mobile radio system of the DECT system, which is connected via antenna 30 via radio interfaces to antennas of the second group 31 of subscriber radio terminals DECT systems. The first, second and third line inputs / outputs of the line input unit 15 are connected respectively to the subscriber line 32 of the IP system telephone connection, the subscriber line 33 of the telephone confidential communication and the LAN line 34. The first and second inputs and outputs of the first 8 AWPs at the RS-232 interface are connected to additional control inputs and outputs of the station operation control unit 6 and satellite communication station guidance system 7, respectively, the first 8 AWPTs are connected to the second 20 AWPs via the network port, the first, second and the third control inputs and outputs of which are connected to the control inputs and outputs of the server 12, the router 13, and the distribution and switching unit 14 of the LAN users, while information exchange is carried out between the first 8 and the second 20 signals, control and interaction signals, as well as data on the state of the direction of communication formed by the satellite communication station 1, channels and communication lines of the mobile communication network formed by the main 26 and remote 29 mobile radio base stations of the DECT system and digital mini-ATS 25 of the DECT system .

The inputs and outputs of the microprocessor 38, located on the motherboard 37 of the system unit 36 of the personal computer 35 of the first 8 and second 20 AWP, are connected through the system line 39 to the inputs and outputs of RAM 40, reprogrammable ROM 41, keyboard controller 42, monitor adapter 43, adapter 44 ports, controller 45 drives and controller 46 additional devices, the second and third inputs and outputs of which are connected to the inputs and outputs of the board 51 audio I / O and graphic manipulator 54 type "mouse", the second inputs and outputs of the controller RA 42 keyboards are connected to the inputs and outputs of the standard keyboard 53, the second inputs and outputs of the adapter 43 of the monitor are connected to the inputs and outputs of the display 52 with a plasma screen, the second inputs and outputs of the controller 45 drives are connected to the corresponding inputs and outputs of the drive 48 and the hard disk 47 of the magnetic disk 47 . System 47 software and special application software 50 are located on the hard disk drive 47. The first and second inputs and outputs of the first 8 AWP are the fourth and fifth inputs and outputs of the controller 46 of the additional devices of the personal computer 35, and the second inputs and outputs of the adapter 44 ports are the third inputs and outputs of the first 8 AWP. (For the second 20 AWP, the first and second inputs and outputs are respectively the second and third inputs and outputs of the adapter 44 ports, and the third and fourth inputs and outputs of the second 20 AWP are the fourth and fifth inputs and outputs of the controller 46 additional devices).

The inputs and outputs of the microprocessor 57, located on the motherboard 56 of the system unit 55 of the portable computer 18 of the first 17 RMOs, are connected through the system trunk 58 to the inputs and outputs of the RAM 59, the programmable ROM 60, the keyboard controller 61, the monitor adapter 62, the adapter 63 ports, the controller 64 disks and controller 65 additional devices, the second inputs and outputs of which are connected to the inputs and outputs of the graphic manipulator 72 of the mouse type, the second inputs and outputs of the adapter 62 of the monitor are connected to the inputs and outputs of the display 70 with a plasma e by crane, the second inputs and outputs of the controller 64 disks are connected to the corresponding inputs and outputs of the drive 67 for connecting a flexible magnetic disk and a hard magnetic disk 66, the second inputs and outputs of the keyboard controller 61 are connected to the inputs and outputs of a standard keyboard 71. On a hard disk drive 66 The disk contains system 68 software and special application 69 software.

The inputs and outputs of the microprocessor 75, located on the motherboard 74 of the system unit 73 of the portable computer 23 of the second 22 RMOs, are connected through the system line 76 to the inputs and outputs of the RAM 77, the programmable ROM 78, the keyboard controller 79, the monitor adapter 80, the adapter 81 ports, the controller 82 disks for connecting a flexible magnetic disk and a controller; 83 additional devices, the second inputs and outputs of which are connected to the inputs and outputs of the mouse 90 graphic manipulator; the second inputs and outputs of the monitor adapter 80 are connected to the inputs and outputs of the plasma display 88, the second inputs and outputs of the disk controller 82 are connected to the corresponding inputs and outputs of the drive 85 for connecting a flexible magnetic disk and a hard magnetic disk 84, the second inputs and outputs of the keyboard controller 79 are connected to the inputs and outputs of a standard keyboard 89 The system 86 software and 87 special application software are located on the hard drive 84. The second inputs and outputs of the adapter 81 ports are inputs and outputs of the laptop 23 of the second 22 RMO.

The composition of the antenna system 2 includes a reflector with an irradiating system, an antenna-waveguide path (ABT) and a slewing ring with an electric power drive. The antenna system 2 of the satellite communication station 1 is connected to high-frequency circuits of the device 3 for separating the transmission and reception paths. It is intended for receiving from the air and broadcasting the high-frequency signals formed by the transceiver 4 of the satellite communication station 1.

As the antenna system 2 can be used antenna type SWE-DISH DA180C Driveaway, 1.8 m, direct focus C-band.

The device 3 separation of the transmission and reception paths is designed to separate the high-frequency radio signals coming from the antenna system 2 and transmit them to the input of the high-frequency part of the transceiver 4, as well as to receive high-frequency signals from the output of the high-frequency part of the transceiver 4 and transmit them to the input of the antenna system 2 for radiation to ether.

Various embodiments of the transceiver 4 are possible. One of the transceiver 4 options includes a low-noise amplifier, a frequency converter and a demodulator in the receiving part, and the transmitting part of the transceiver 4 includes a modulator, a transmission frequency converter and a power amplifier [5].

The receiving part of the transceiver 4 of the satellite communication station 1 carries out preliminary amplification of the received microwave signal, converting it to an intermediate frequency (usually 70 MHz) for subsequent processing in the demodulator, and the transmitting part is designed to generate the microwave signal with the given parameters and its amplification to the required level. In this case, an intermediate frequency signal (usually 70 MHz) is generated in the modulator, modulated in frequency by the image and sound signals. To suppress unwanted combined components in the transceiver provides a double frequency conversion and operational tuning in the frequency band.

The channelization equipment 5 of the satellite communication station 1 is intended for converting information signals arriving at the station from the terrestrial network, as well as signaling information from the access control and signaling equipment, into signals of information exchange protocols adopted in this system and converting them into intermediate frequency radio signals. In the receiving path, the inverse transformation occurs.

The channelization equipment 5 may include linear equipment and a terminal equipment unit, including a channel digital processing channel, a telephone channel unit, and a data transmission unit. A typical digital signal processing path consists of a modem and a computerized digital control device, as well as a speech codec. The terminal equipment block provides an interface for remote monitoring and control and an analog interface with the necessary types of user terminal equipment for transmitting voice information, fax or telex signals. The speech codec provides the conversion of an analog telephone signal into digital form during transmission and the reverse conversion at reception. The most common conversion option is adaptive differential PCM (ADPCM) at 32 kbps in accordance with ITU-R G.721 recommendations. In addition to voice information, service signaling signals transmitted via the subscriber telephone interface when establishing a connection are also converted into digital form. The considered set of station equipment provides for the organization of a duplex telephone channel provided in fixed mode or on demand. The user interface is implemented in a 2-wire subscriber version or in a 4-wire E&M type, designed for direct connection of a telephone or a private telephone exchange [5, 6].

Although the conversion described in CCITT G.728 recommendations is oriented primarily to voice transmission, it also provides transmission of facsimile messages at a speed of 1200 bit / s.

The data transmission unit of the channelization equipment 5 is equipped with a digital modem and a digital interface device with terminal equipment PD, which is used by the consumer. The interface device provides electrical and physical communication between the satellite communication station 1 and external data terminal equipment (ADF). For user convenience, the interface device is equipped with several data input-output ports and provides compatibility with various protocols. In most cases, three main types of interfaces are implemented in software or hardware: RS-449/422, V.35, RS-232. Most often in satellite data transmission networks, X.25, SNA / SDLC, TCP / IP data exchange protocols are used.

In channeling equipment 5, due to the installation of additional interface equipment, data exchange protocols with connecting the station to a local computer network are also implemented.

The channelization equipment 5, taking into account the above equipment, provides densification and decompression of the high-frequency path formed by the intermediate frequency path of the transceiver 4 of satellite communication station 1, channel formation and the formation of standard interfaces via telephone and fax interfaces, along ISDN and RS-232 interfaces with their subsequent transfer to the corresponding satellite modem inputs / outputs 9.

Unit 6 control the operation of the station is designed to ensure the interconnected operation of the elements of the station 1 satellite communications, the establishment of operating modes, transmission speed of information and verification of its performance.

The guidance system 7 is designed to control the antenna system 2 of the satellite communication station 1 according to the signals received from the external navigation system, and to adjust the angle of the antenna depending on the location of the mobile mobile communications node on the ground.

The first 8 AWPT, which includes a personal computer as part of a system unit, a plasma-screen display, a standard keyboard and a mouse-type graphical manipulator, is intended for setting up, maintaining equipment for satellite communication station 1 and organizing communications over the channels of satellite communication station 1, as well as to ensure interaction with other workplaces of the mobile node mobile communications.

As a personal computer, a personal Notebook computer such as Gotec, Fildbos can be used.

Satellite modem 9 is designed to interface the channels of satellite communication station 1 with terminal equipment and transfer data between mobile users over short distances at high speeds of up to 2 Mbit / s.

It contains port adapters for channel and DTE-DCE interfaces, universal (PU - Processor Unit), signal (DSP - Digital Signal Processor digital signal processor) and modem processors, read-only memory (ROM), non-volatile non-volatile flash memory (ERPROM) , random access memory (RAM), storage devices and modem status indicator circuits.

As a satellite modem, a Comtech EF Data CMD-570 L-band modem (QPSK, Turbo) can be used.

The switch of 10 lines and group paths is designed for operational switching of group paths and channels formed by the satellite communication station 1 to the inputs and outputs of the digital mini-ATS 25 of the DECT system and through it to the channels of the mobile radio subsystem, through the Ethernet card for LAN subscribers. The switch 10 also provides connection and maintenance of telephone subscribers of the IP system through the telephone 16.

As the switch 10, a Cisco Systems series switch such as the Cisco 2621 can be used, having appropriate software, for example, Internetworking Operating Systems (IOS) software. It provides the organization of access to local networks via asynchronous communication channels.

The Ethernet board 11 is designed to interface the inputs and outputs of a 10-line switch and group paths with the server I / O.

Server 12 provides reception and distribution of the load schedule from LAN subscribers to the channels of the mobile radio subsystem organized by the main 26 base station of the mobile radio system of the DECT system and digital PBX 25. As a server 12, a Cisco 2621 router can be used.

As the server 12, a Baget-11 computer can also be used. It contains a system unit consisting of a Pentium microprocessor, random access memory (RAM), cache RAM, an SVGA video monitor controller, an ISA / PCI system bus, a hard disk drive (HDD), a removable hard drive, an ACSI, IDE, parallel drive controller CENTRONICS port, RS-232C asynchronous serial port, Ethernet network controller (IEEE 802/3 10 Mbit / s), fax modem and sound card, SVGA color video monitor, keyboard, dot-matrix printer, and mouse type graphic manipulator [7 ].

The Baget-11 computer has unified electronic interfaces and is fully compatible with IBM PC architecture. Licensed certified software MS DOS (DOS 6.0 operating system) and Windows (Windows 3.1), as well as a testing system, are supplied with the computer. Installation of operating systems VxWorks, UNIX, OS 9000, etc. is possible.

Router 13 contains a set of network modules, for example, Cisco 2621 series, which are used as routers / access servers. Such routers can work both with each other and as a response device for DXC multifunction access nodes. Such a router makes it possible to provide not only standard services traditional for routers of this class, but also new ones associated with packet telephony and the “intelligent services” system. Router 13 includes a base unit with a control module, main channel modules and input / output modules. It has from 4 to 12 trunk analog ports for connecting to the PBX. One of the slots of the router is reserved for communication with an Ethernet or ISDN network. Router 13 has an AIM slot that can perform hardware compression and data encryption, as well as other functions.

Each of the modules provides the formation of digital communication and control channels, interfaces for interfacing with external equipment.

The router's support for network modules, as well as VIC voice cards and HDV backplane voice modules (Digital Voice and Fax Packet Voice Trunk), makes it possible to provide not only standard services traditional for routers of this class, but also new ones related to packet telephony and the system “Intelligent services”.

Router 13 processes the addresses of all incoming data, encodes the corresponding addresses into signals, and sends correspondingly addressed data through server 12, switch 10, and satellite modem 9 via channels of satellite communication station 1 to central or regional offices.

The Voice-over-IP module for Cisco Systems 2621 and 2950 series routers allows you to send calls via Intranet instead of a regular telephone network and provides good quality two-way voice communication even at a speed of 8 Kbps.

Cisco routers can determine the required call quality from the called number, so a very important client can be switched to 64 Kbit / s pulse-code modulation. The operating system of routers (Internetworking Operating Systems, IOS) to ensure the required quality of service (QoS) includes a resource reservation protocol for the priority sending of voice packets.

The Cisco 2621 Router has four to twelve trunk analog ports for connecting to the PBX. One of the slots of the router is dedicated to provide communication with the Ithemet network or ISDN.

Cisco Voice Manager, a Java-based application designed to simplify the process of deploying and managing a network with voice support, is used to monitor and manage a network with voice support. It facilitates the configuration of voice and facsimile interfaces and the administration of a voice plan, provides general and current call reports, measures such parameters as delay, packet loss and type of service.

Block 14 distribution and switching of LAN users is designed to organize the exchange of electronic correspondence between LAN users and subscribers of the mobile radio subsystem.

The input unit 15 lines is a patch panel, which connects and cross-connects subscriber lines 33 telephone system IP, subscriber lines 34 telephone confidential communication lines 35 LAN.

The telephone apparatus 16 of the IP system is designed to conduct telephone communications over the channels of a computer network with packet switching and voice messaging. As such an apparatus, a telephone apparatus of the type Nokia 450 or ATT-4200 from ATT can be used.

The operation of computer telephony systems is based on the use of voice menus. The subscriber listens to a message about which options he can choose at the moment and what actions are necessary to select one or another option. The choice is made by dialing a specific number or combination of numbers on the telephone or by saying a specific command. In the latter case, speech recognition technology is used.

Portable computers 18 and 23 are designed for equipment of the first 17 and second 22 RMO.

Portable computers 18 and 23 can be implemented on the basis of electronic modules and computing nodes of the Baget computer family. At the same time, the computer includes a system unit consisting of a central processor and electronic modules BT01-414, BT01-416, based on the domestic 1V578 microprocessor, ISA system bus, and specialized software supplied on a hard disk drive (HDD). The BT01-414 module is a software-controlled electronic module that implements physical and 20 channel layer protocols. This module is designed to transmit (receive) data and voice information over communication channels using standard protocols for exchanging data and voice information TAPI or in accordance with the EIA RS-232-C standard. Structurally, the module includes a microprocessor, for example, AMD-133 with a clock frequency of 80 MHz, random access memory (RAM), reprogrammable read-only memory (ROM), asynchronous RS-232 serial interface. The named modules implement the combined packet data and voice information transmission, as well as relaying data streams in the form of corresponding files ”[7].

Processing control signals, polling the keyboard, generating the necessary frequencies and displaying information on the display is controlled by a central processor.

As a portable computer 18 and 23 of the first 17 and second 22 of the RMO, a portable baguette-41 type electronic computer can be used [7]. It is intended for the organization of operator workstations, as well as for the management of mobile objects operating in particularly harsh operating conditions. The basic configuration of a portable computer includes an Intel 80386SL, 80486DX2 type microprocessor, an SVGA video monitor controller, a VGA video monitor with a color active liquid crystal matrix, an ISA system bus, a removable hard disk drive (HDD), a keyboard, and a track ball graphic information manipulator , asynchronous RS-232C serial port, IRPS serial port, CENTRONICS parallel port, multiplex channel, two parallel PCMCIA ports, to which a LAN adapter card and a non-volatile card are connected my flash. The Baguette-41 computer is an open system for the consumer, that is, it is possible to increase the basic configuration by connecting additional modules to the PCMCIA connectors. This allows you to ensure the operation of computers with external memory, even in conditions of increased vibration and shock.

Wearable Baget-41 computer has unified electronic interfaces and is fully compatible with IBM PC / Notebook architecture. Licensed certification software MS DOS (DOS 6.0 operating system) and Windows (Windows 3.1), as well as a testing system, are supplied with the computer. Installation of operating systems VxWorks, UNIX, OS 9000, etc. is possible.

The second 20 AWPT, which includes a personal computer as part of a system unit, a plasma screen display, a standard keyboard and a mouse-type graphic manipulator, is intended for configuration, maintenance of the equipment of the mobile radio subsystem, organization of communications over established channels, as well as for providing interaction with other workplaces of the mobile node of mobile communications.

A Toshiba laptop computer, for example, Toshiba A100, containing a system unit consisting of an Intel central processor, a system bus, electronic memory modules and a reprogrammable computer, can also be used as a computer for the first 8 and second 20 AWPTs. Permanent storage device, standard keyboard, plasma screen display, system software and special application software (STR), supplied on a hard drive agnitic drive. One of the functions of the open source software is the generation of files for the broadband modem 9. The open source network also includes an SNMP manager, through the protocol of which the equipment is controlled and diagnosed. The software is designed for the Windows NT operating system and includes a utility for generating configuration files for the modem. Exchange of electronic correspondence via communication channels is carried out using the well-known mail program Internet Mail and the corresponding files in the form of a standard protocol via a modem interface of the RS-232 type with transmission rates from 1200 to 9600 bit / s.

Telephone apparatus 21 telephone confidential communication is a regular telephone system of the exchange or the Central Bank (central battery). As such an apparatus, a telephone apparatus of the type Standard 100E can be used.

The small-sized printer 24 of the second 22 RMO is designed for printing messages received via communication channels, including fax messages, data on the technical condition and operation of the equipment of the mobile mobile communications unit.

As a small-sized printer 24, a Toshiba printer can be used.

The digital mini-automatic telephone exchange 25 of the DECT system together with the main base station 26 of the mobile radio communication of the DECT system and antenna 27, the remote base station 29 of the mobile radio communication and antenna 30, the first 28 and second 31 groups of subscriber radio terminals of the DECT system are intended for organization in places of emergency response and emergency situations of subscriber telephone networks and mobile radio subsystems for servicing mobile brigade subscribers.

As a digital mini-automatic telephone exchange 25 of the DECT system, an Open Exchange 150 PBX can be used, which includes the M100-AT4 module and the M100-A4 module, designed to organize twelve linear analog interfaces, as well as the M100-U8d module, which provides Organization of eight UPN interfaces.

As subscriber telephone sets for work through mini-automatic telephone exchanges, DECT type telephones of the Open Corn 28 type can be used.

The main base station 26 of the mobile radio system of the DECT system with antenna 27, the first group 28 of subscriber radio terminals of the DECT system, the remote base station 29 with the antenna 30 and the second group of 31 subscriber radio terminals of the DECT system are designed to organize mobile radio communication of the DECT DeTeWe system (wireless access) according to the exchange and conducting automatic duplex telephone communication between officials located directly in the mobile communication center and subscribers moving across the territory in the emergency area, at Some of them have portable subscriber radio terminals 28 and 31 (or radio tubes).

The basic 26 and remote 29 mobile radio base stations of the DECT system are essentially a conventional cordless telephone (BTA) with a wired connection to a telephone exchange in which the cord between the main unit and the handset is replaced by a radio line.

Structurally, the BTA is two separate devices: a stationary (base) unit (BB) and a portable unit (PB) (microtelephone radio handset). Communication between the two blocks is carried out over the air using amplitude (AM) or frequency (FM) modulation. BTA combines the functional nodes of a KB or VHF radio station and an electronic multifunction telephone. This combination allows you to use the telephone at a fairly considerable distance from the outlet into which it is connected without using a long wire [6].

SB includes all functional units that interact with the telephone line from the PBX, its control circuit and a full-fledged KB or VHF radio station. The control circuit includes devices such as a call detector, a bell, a line pickup relay, a full DTMF keyboard or just a tone generator, as well as independent control microprocessors.

In order for the cordless phone to work in full duplex mode (that is, so that you can talk and listen to it at the same time), reception and transmission are carried out at two different frequencies. Signals from the stationary to the portable unit are transmitted at one frequency, and from the portable to stationary - to another. The two frequencies must be selected very carefully to ensure that in duplex operation there is no mutual interference between the transmitted and received signals.

The PB contains the same main groups of functional units as the stationary one: a receiver, a transmitter, and a control circuit (microprocessor). In most PBs, a typeset keyboard is installed that connects directly to the microprocessor. When dialing a number, the microprocessor generates control signals that are transmitted to the SB, converted to the corresponding DTMF signals and fed to the telephone line. The signal received by the PB antenna is fed to a speech amplifier (RF), which amplifies the weak radio signal transmitted by the stationary unit. The amplified signal contains the same components as the "reverse" signal of the PB. Its conversion to PB takes place in exactly the same way as in SB. The only difference is that the detected speech signal is not sent to the conversational circuit, but to the telephone capsule or small loudspeaker.

As the main 26 and remote 29 base stations of mobile radio communications can be used RFP 24 station.

As the mentioned base stations 26 and 29 of the mobile radio system of the DECT system, an office set for Benefon Delta type DDS-40 and a portable telephone Benefon Delta 450L can also be used

For base station 26 with antenna 27 and base station 29 with antenna 30, an omnidirectional antenna of the type HUBER + SUHNER (Switzerland), DECT 360712 can be used.

IP subscriber telephone lines 32 and confidential telephone subscriber lines 33 can be made of multi-core field cable, and LAN lines 34 can be made using twisted-pair cable.

The mobile node of the mobile communication is located in an all-metal van body on the chassis of a cross-country vehicle, while the main equipment and equipment of the node are located in the body of the van, and the antenna system of the satellite communication station and the antenna of the main base station of mobile radio communication are located on the roof of the car.

As a cross-country vehicle, the transport base of the Mercedes-Benz Unimog U2150 / 38 (U 437) chassis can be used.

The proposed mobile node mobile communications provides the following modes of operation and types of communications:

a) provides the necessary channel and telecommunication infrastructure for the interaction of the central office with the operational group carrying out a field event, as well as for ensuring the work of the operational group at the scene;

b) the formation of a group stream with a speed of 2048 kbit / s and digital channels at transmission rates from 1.2 to 9.6 kbit / s to provide automatic telephone communications, facsimile messages and data exchange with remote subscribers of the central office using a satellite communications station;

c) the deployment of the mobile radio subsystem and the organization of work in radio networks;

d) the deployment of a subscriber network of open telephone communications and the maintenance of subscribers of field teams;

e) the deployment of a subscriber telephone network of confidential communications and the maintenance of subscribers of field teams;

f) network deployment and LAN subscriber service.

The interaction of the central office with the task force conducting the field event is carried out through the channels of station 1 of satellite communications. At the same time, a duplex exchange of telephone, text and confidential information between subscribers of a mobile mobile communications node and central office subscribers is provided during field events, the organization of an operational management system in the field area during the liquidation of accidents and incidents, as well as during emergency rescue operations at facilities and territories carried out by field teams.

A mobile mobile node in the direction of satellite communications provides the reception / transmission of a digital group signal with a transmission rate of up to 2048 kbit / s. Within the group speed, the organization of the following simultaneously operating duplex communication channels is ensured:

four channels of telephone confidential communication;

four channels of open telephone communications;

one secure multicast data channel.

When portable video cameras are included in the mobile mobile communications unit, one video channel can also be organized through which the reception / transmission of protected audio and video information, video conferencing, or the reception of secure audio and video information and video surveillance is received.

Direct telephone confidential communication is provided using a telephone system 16 of the IP system along the path, including a switch 10 lines and group paths, satellite modem 9, equipment 5 channelization station 1 satellite communication, transceiver 4, device 3 separation of the transmission and reception paths and antenna system 2. The radio signal emitted by the antenna system 2 is received by the antenna system of a satellite communications station located on the opposite side in a central or regional office. The radio signal received by the antenna system after being converted into a high-frequency intermediate frequency signal is fed to the channelization equipment, which allocates telephone communication channels and transmits them to the terminal device, including the subscriber’s telephone set at the workplace of an official of the central or regional office who is involved in issues organization of work of field teams in the area of liquidation of consequences of catastrophes or emergency situations.

Open telephone communication between officials of the central or regional office and the visiting team is carried out according to the same principle as for telephone confidential communication. The only difference is the use of different telephones and a separate Cisco router.

The organization of the mobile radio subsystem is carried out using the digital mini-automatic telephone exchange 25 of the DECT system included in the mobile unit, the main 26 base station of the mobile radio system of the DECT system with antenna 27, the remote 29 base station of the mobile radio system of the DECT system with antenna 30, the first 28 and second 31 groups subscriber radio terminals of the DECT system.

At the same time, automatic telephone communication is provided to each official from the field teams by sending a call from subscriber radio terminals of the first group 28 and establishing a connection through the channel of the main base station 26 through a digital PBX 25. The negotiation path between the subscribers includes a subscriber radio terminal (portable radio handset ) the first group 28 with a built-in antenna, the antenna 27 of the main base station, the main base station 26 of the mobile radio system of the DECT system, the first subscriber set The digital PBX 25 and then through a set of subscriber digital PBX 25 is carried out to the called party. Making a call, establishing a connection, negotiating, and hanging up at the end of communication is carried out in accordance with the protocol adopted for conventional exchanges.

Organization of automatic telephone communication between subscribers of a mobile mobile node using a remote 29 base station of a mobile radio system of the DECT system and the second group of 31 subscriber radio terminals is carried out in the same way as with the main 26 base station. In this case, the remote base station 29 of the mobile radio system of the DECT system with the antenna 30 is located in the building, which houses a group of officials involved in organizing the elimination of the consequences of disasters at various facilities, including oil and gas pipelines. In this case, the remote base 29 station of the mobile radio system of the DECT system is connected via a cable line to the second subscriber set of the digital mini-ATS 25 of the DECT system. Each of the officials has a subscriber radio terminal from the second 31 group of subscriber terminals of the DECT system. Using the indicated subscriber radio terminals, officials, moving in the building or in the territory adjacent to it, have the opportunity to go through the remote base station 29 to a digital PBX and then through it to subscribers of the mobile node or subscribers of the first 28 group of subscriber radio terminals. This provides automatic calling of subscribers and the ability to automatically conduct between a duplex telephone service.

The technical efficiency of the proposed mobile mobile communication node is to expand the functionality and increase the throughput of communication directions, organized with the help of communication equipment and computers available in the communication center. This is achieved through the introduction of a high-speed satellite modem 9 into the mobile unit, which provides information exchange in the direction of satellite communications at a speed of up to 2 Mbps, as well as through the organization of direct telephone channels of the IP system between officials located in the mobile node of the mobile communications and in the central or regional offices through the channels of the satellite communications station.

Information sources

1. RU, patent No. 2010434, cl. HBB 7/185, 1994.

2. RU, patent No. 2117392, class. HBB 7/185, 1998.

3. RU, patent No. 2293442, class. HB04 7/185, 2007 (prototype).

4. The complex of technical means of mobile radio communications R-169. OJSC "Ryazan Radio Plant".

5. Satellite Communications and Broadcasting: A Guide. - 3rd ed., Revised. and add. / V.A. Bartenev, G.V. Bolotov, V.L. Bykov and others; under the editorship of L.Ya. Kantora. - M.: Radio and Communications, 1997, p. 419.

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

7. The family of computers for specialized applications "Baguette". Design Bureau "KORUND-M" - M .: PO Box 10, p.3, 11.

8. Figurnov V.E. IBM PC for the user. Ed. 6th rev. and add. - M .: INFRA-M., 1996.

Claims (4)

1. A mobile mobile communications unit containing a satellite communication station as part of an antenna system, a device for separating transmission and reception paths, a transceiver, channelization equipment, a station control unit and a guidance system, a router, a laptop computer, a small-sized printer, and the main mobile radio system base station of the system wireless access (DECT) with an antenna, subscriber telephone lines, telephone set of the automatic telephone communication system (PBX), while the antenna input-output with the system is connected to the input-output of the device for separating the transmit and receive paths, the output of which is connected to the input of the high-frequency part of the transceiver, the output of the intermediate frequency path of which is connected to the linear input of the channelization equipment, the linear output of which is connected to the input of the intermediate frequency path of the transceiver, the output of the high-frequency part of which is connected with the input of the device for the separation of the transmission and reception paths, the control input-output of the channelization equipment is connected to the first control the input-output of the station operation control unit, the second control input-output of which is connected to the first input-output of the guidance system, the second input-output of which is connected to the control input-output of the antenna system, characterized in that the first and second technological automated working location (ARMT), satellite modem, switch of lines and group paths, Ethernet board, server, distribution unit and switching unit of users of a local area network (LAN), line input unit, telephone of Interne system t Phone (IP), the first operator’s workstation (RMO) as part of a laptop computer and scanner, the second RMO as a part of a laptop computer and small-sized printer, two telephone telephones for telephone confidential communication, DECT digital PBX system, remote system mobile radio base station DECT with an antenna, the first and second group of subscriber radio terminals of the DECT system, subscriber telephone lines of confidential communication and LAN lines, and the channel input-output of the channelization equipment of the satellite communications station with a linear input-output of a satellite modem, the station input-output of which is connected to the first input-output of the line and group path switch, the second input-output of which is connected via the Ethernet card to the first input-output of the server, the second input-output of which is connected to the first the input of the router, the second input-output of which is connected to the first input-output of the LAN users distribution and switching unit, the second input-output of which is connected to the laptop of the second RMO, and the third and fourth inputs and outputs of the Distributions and switching of LAN users are connected respectively to the inputs and outputs of a small-sized printer and to the first station I / O of the line input unit, the second station I / O of which is connected to the third inputs and outputs of the router and to the linear inputs and outputs of telephone sets of telephone confidential communication the input / output of the telephone set of the IP system is connected to the third input / output of the line and group path switch and to the third station input / output of the line input unit, fourth the output input-output of the switch of lines and group paths is connected to the first input-output of a laptop computer of the first RMO, the second input-output of which is connected to the input-output of the scanner, the fifth inputs and outputs of the switch of lines and group paths are connected to the linear inputs and outputs of a digital mini Automatic telephone exchange of the DECT system, the inputs and outputs of the first subscriber set of which are connected to the linear inputs and outputs of the main base station of the mobile radio system of the DECT system, which is connected via antenna to the antennas of the first group via the radio interface DECT subscriber radio terminals, the inputs and outputs of the second subscriber set of the DECT digital mini-ATC system are connected to the line inputs and outputs of the DECT mobile radio communication base station, which is connected via antennas via radio interfaces to the antennas of the second group of DECT radio terminals and to the first , the second and third line inputs / outputs of the line input unit are connected respectively to the subscriber telephone lines of the IP system, the subscriber telephone lines of confidential communication and and LAN, the first and second inputs and outputs of the first AWP at the RS-232 interface are connected to additional control inputs and outputs of the station operation control unit and the satellite communication station guidance system, respectively, the first AWT via the network port at the RS-232 interface is connected to the second AWT, the first, second and third control inputs and outputs of which are connected to the control inputs and outputs of the server, router, and distribution and switching unit of the LAN users, while the exchange between the first and second AWT information signals, control and interaction signals, as well as data on the state of the communication direction formed by the satellite communication station, channels and communication lines of the mobile communication network formed by the main and remote mobile radio base stations of the DECT system and digital mini-automatic telephone exchange of the DECT system. 2. The mobile node according to claim 1, characterized in that the first and second ARMT includes a personal computer that contains a system unit consisting of a motherboard on which a microprocessor, a system bus, random access memory (RAM), reprogrammable constant a storage device (ROM) and a keyboard controller, monitor adapter, port adapter, disk controller, additional device controller, hard magnetic disk, floppy disk drive, system The software and special application software supplied on the hard disk drive and the audio I / O board also contain a plasma screen display, a standard keyboard, a mouse-type graphic manipulator, and the CPU input-output via the system the highway is connected to the inputs and outputs of RAM, flash ROM, monitor adapter, port adapter, disk controller, keyboard controller and additional device controller, second and third inputs the s-outputs of which are connected respectively to the inputs and outputs of the audio input-output board and a graphic manipulator of the mouse type, the second inputs and outputs of the monitor adapter are connected to the inputs and outputs of the display with a plasma screen, the second inputs and outputs of the disk controller are connected to the corresponding inputs the outputs of the drive and the hard magnetic disk, the second inputs and outputs of the keyboard controller are connected to the inputs and outputs of a standard keyboard, while the fourth and fifth inputs and outputs of the controller of additional devices are respectively essentially the first and second inputs and outputs of the first AWT, the third inputs and outputs of which are the second inputs and outputs of the port adapter. 3. The mobile node according to claim 1, characterized in that the portable computer of the first RMO contains a system unit consisting of a motherboard on which a microprocessor, a system bus, random access memory (RAM), reprogrammable read-only memory (ROM) and a controller are located keyboard, monitor adapter, port adapter, disk controller, additional device controller, hard magnetic disk, floppy disk drive, system software and special The application software supplied on the hard disk drive also contains a plasma-screen display, a standard keyboard and a mouse-type graphic manipulator, the inputs and outputs of the central processor being connected via the system bus to the inputs and outputs of RAM, a programmable ROM, monitor adapter, port adapter, disk controller, keyboard controller and controller for additional devices, the second inputs and outputs of which are connected to the inputs and outputs of the graphic manipulator mouse type headers, the second inputs and outputs of the monitor adapter are connected to the inputs and outputs of the display with a plasma screen, the second inputs and outputs of the disk controller are connected to the corresponding inputs and outputs of the drive and the hard magnetic disk, the second inputs and outputs of the keyboard controller are connected to the inputs outputs of the standard keyboard, while the second inputs and outputs of the port adapter are the first inputs and outputs of the portable computer of the first RMO, the second inputs and outputs of the portable computer are the third inputs and outputs of the control EPA accessories. 4. The mobile node according to claim 1, characterized in that the portable computer of the second RMO contains a system unit consisting of a motherboard on which a microprocessor, a system bus, random access memory (RAM), reprogrammable read-only memory (ROM) and a controller are located keyboard, monitor adapter, port adapter, disk controller, additional device controller, hard magnetic disk, floppy disk drive, system software and special The application software supplied on the hard disk drive also contains a plasma-screen display, a standard keyboard and a mouse-type graphic manipulator, the inputs and outputs of the central processor being connected via the system bus to the inputs and outputs of RAM, a programmable ROM, monitor adapter, port adapter, disk controller, keyboard controller and controller for additional devices, the second inputs and outputs of which are connected to the inputs and outputs of the graphic manipulator mouse type headers, the second inputs and outputs of the monitor adapter are connected to the inputs and outputs of the display with a plasma screen, the second inputs and outputs of the disk controller are connected to the corresponding inputs and outputs of the drive and the hard magnetic disk, the second inputs and outputs of the keyboard controller are connected to the inputs the outputs of the standard keyboard, while the second inputs and outputs of the port adapter are inputs and outputs of the laptop of the second RMO.

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