RU2168279C1 - System of communication with mobile objects - Google Patents

Abstract

FIELD: exchange of information between subscribers of stationary ( field ) communication network and subscribers located in mobile objects. SUBSTANCE: system of communication with mobile objects includes subscriber's and central stations having exit to channels of communication network via automatic telephone exchange and each subscriber's station incorporates terminal, unit of control relays, multiplexer, information encoder, referencing unit and transceiver with antenna connected to it via high-frequency circuits. Central station includes unit forming referencing channels with antenna connected to it via high-frequency circuits, multiplexer, information encoder, commutation and interaction unit and subscriber registering unit. Characteristic feature of invention consists in provision of each subscriber's station with multiplexer, information encoder and referencing unit and of each central station with multiplexer, information encoder, subscriber registering unit and proper change of circuit connections between all units of system. EFFECT: increased number of serviced subscriber's stations without deterioration of quality of servicing of mobile subscribers. 7 dwg

Description

 The invention relates to communication technology and can be used to transfer information between subscribers of a fixed (field) communication network and subscribers located in moving objects.

 There are a number of communication systems with mobile objects containing subscriber and one or more central stations, which include terminal devices, channel forming units and transceivers [1, 2].

 However, these systems have limited functionality for a number of reasons.

 Of the known communication systems with mobile objects, the closest but technical essence is the Altai-3 multichannel mobile radio communication system, described in [3].

 This system comprises a central station (CA) connected to the communication network via an automatic telephone exchange (PBX) of the network connected to it and subscriber stations (AC), the central station comprising a binding channel generation unit, a switching and interaction unit, and the subscriber station including the terminal device, the automation unit and the transceiver unit, while the control input and output of the terminal device through the automation unit is connected to the control input and output of the transceiver unit.

 The system works according to the zonal principle with equal access to the channels of the central station. However, the specified system has certain disadvantages that limit the scope of its application.

 Firstly, the permissible number of subscriber stations in the system is limited by the capabilities of the central station but to the formation of equally accessible binding channels, since this number is fixed and cannot be increased (increased), and the load and required quality of service in the system created by subscribers of mobile objects (subscriber stations) (probability of failure to establish a connection) are specified. For given initial data, the permissible number of subscriber stations in the system is determined by the well-known formulas of the theory of queuing [4].

 Secondly, the system does not provide the possibility of increasing the size of the served territory by increasing the number of central stations without compromising the quality of service for mobile subscribers.

 This situation is explained by the fact that the system does not allow identification of subscriber stations present at a given moment in the coverage area of the central station, as a result of which, if there are several CAs, calls may be lost by subscribers of a fixed (field) communication network, and the setup time may increase connections from mobile subscribers, i.e. quality of service for mobile subscribers may be deteriorating.

 Thirdly, secrecy of communication is not provided in the system, since the information transmitted through the radio channel between the subscriber station and the central station can be easily intercepted (using a radio receiver) and its contents disclosed.

 At the same time, these drawbacks can be eliminated by providing an additional signaling channel common to all subscriber stations between subscriber stations and a central station, which allows these stations to assess the fact of their presence in the CA coverage area, for example, according to an energy criterion, and fix the central station quickly to control the individual numbers assigned to subscriber stations located in its coverage area.

 The aim of the invention is to increase the number of served subscriber stations without compromising the quality of service for mobile subscribers.

 This goal is achieved by the fact that in a system containing a terminal block at each subscriber station, an automation unit and a transceiver connected via a high-frequency circuit to an antenna, while the information and control inputs and outputs of the terminal block are connected respectively to the information and control outputs and inputs of the automation unit , the second control output of which is connected to the first control input of the transceiver, and at the central station contains a block for the formation of binding channels, connected by h high-frequency circuits with an antenna, a switching and interaction unit, and the subscriber and central stations are interconnected by radio channels through the antenna input and high-frequency circuits of the transceiver and the link channel forming unit, respectively, a compression unit, an information encryption unit and an attachment unit controlling the outputs of which are connected respectively to the additional inputs of the transceiver and the automation unit, and the information inputs and outputs are connected respectively to the outputs the house and the input of the signaling channels of the compaction unit, n station information inputs and outputs of which are connected respectively to the second additional output and the input of the automation unit, and its linear input and output are connected respectively to the station output and the input of the information encryption unit, the linear input and output of which are connected to corresponding to the input and output of the transceiver, and at the central station the information encryption block, the sealing block and the subscriber fixation block, the information input and output to They are connected respectively to the output and input of the signaling channels of the compaction unit, and the address output and control input of the subscriber fixation unit are connected to the corresponding input and output of the switching and interaction unit, while the information input and output of the blocking channel forming unit through the information encryption unit are connected respectively to the information the output and input of the sealing unit, n station inputs and outputs of which are connected to the corresponding outputs and inputs of the switching and interaction unit.

 Comparative analysis with the prototype shows that the proposed communication system with moving objects is characterized by the presence of new significant features: a compression unit, an information encryption unit, and a binding unit at each subscriber station; an information encryption block, a seal block, and a subscriber fixation block — at the central station, as well as their relationships with other elements of the system.

 All elements newly introduced into the proposed system are realizable, well known to specialists in this field of technology, and additional creativity, given the explanations below, is not required for their reproduction.

 Thus, the claimed communication system with moving objects meets the criterion of "novelty."

 Signs that distinguish the claimed technical solution from the prototype in other technical solutions from this area are not known and, therefore, ensure compliance with the criterion of "significant differences".

 In FIG. 1 shows a structural diagram of the proposed communication system with moving objects, and in FIG. 2, 3, 4, 5, 6, and 7 are structural and functional diagrams of a subscriber station, a central station, an automation unit, a binding unit, a switching and interaction unit, and a subscriber fixing unit, respectively.

 The communication system with mobile objects (Fig. 1) contains subscriber 1 stations (AS) and at least one central 2 station (CA) located in the serviced area 3, and central station 2 is connected via an automatic telephone exchange (PBX) 4 (has outputs to channels) with a stationary (field) communication network 5 with circuit switching.

 Each subscriber station 1 (Fig. 2) contains an end unit 6, an automation unit 7 comprising (Fig. 4) an address call receiver 16, a marker signal receiver 17, a control and interaction unit 18, a scanning unit 19, a switching unit 20, a transmitter 21 occupation and confirmation signals and address transmitter 22, compaction unit 8, information encryption unit 9, transceiver 10 and attachment unit 11 (FIG. 5) of the attachment signal transmitter 23, receipt receiver 24, channel quality analyzer 25, and central station feature receiver 26 first 27 and the second AND circuits 28 and the high frequency circuit with the antenna 12.

 Central station 2 (Fig. 3) contains a block 13 for forming binding channels, a block 9 for encrypting information, a block 8 for sealing, the composition of which is similar to a similar block for a subscriber station 1. block 14 for switching and interaction as part of (Fig. 6) block 29 for switching, cabinet 30 address receivers, cabinet 31 occupation and confirmation signal receivers, interaction circuitry 32, switching and interaction control unit 33, address call transmitter 34, comparison circuit 35 and marker signal generator 36, subscriber fixation unit 15 (FIG. 7) the transmitter 37 signs of the central station, the switching unit 38, the receipt transmitter 39, the channel quality analyzer 40, the reference signal receiver 41, the I circuit 42 and the subscriber station number storage unit 43, as well as the high-frequency circuits with antenna 12.

 The communication system with mobile objects comprises at each subscriber station 1 a terminal block 6, an automation unit 7, a sealing unit 8, the input and output of which through the information encryption unit 9 are connected to the corresponding output and input of the transceiver 10, to which the antenna 12 is connected via high-frequency circuits, the binding unit 11, the control outputs of which are connected respectively to the additional inputs of the transceiver 10 and the automation unit 7, and the information input and output are connected respectively to the output and input of the signaling channels section 8 of the seal, n station information inputs and outputs of which are connected respectively to the second additional output and input of the automation unit 7, and its linear input and output are connected respectively to the station output and input of the information encryption unit 9, the linear input and output of which are connected respectively to information output and input of the transceiver 10, while the information and control inputs and outputs of the terminal block 6 are connected respectively to the information and control outputs and inputs dams of the automation unit 7, the second control output of which is connected to the first control input of the transceiver 10, and the central station includes a linking channel forming unit 13, to which an antenna 12, information encryption unit 9, sealing unit 9, sealing unit 8, and switching unit are connected via high-frequency circuits interaction 14 and block 15 of the fixation of subscribers, the information input and output of which are connected respectively to the output and input of the signaling channels of block 8 of the seal, and the address output and control input of block 15 of the fixation ab The subscribers are connected to the corresponding input and output of the switching and interaction unit 14, while the information input and output of the binding channel generation unit 13 through the information encryption unit 9 are connected respectively to the information output and the input of the sealing unit 8, n station information inputs and outputs of which are connected to the corresponding the inputs and outputs of block 14 switching and interaction, while the subscriber 1 and central 2 stations are interconnected by radio channels through high-frequency circuits with an antenna 12 s respectively, the transceiver 10 and the block 13 of the formation of the binding channels.

The system works as follows:
a) in the initial state:
Central station 2 (see Fig. 3) radiates in encrypted form through all n information channels through high-frequency circuits with an antenna 12 of block 13 for forming the binding channels, marker signals generated in block 14 of switching and interaction, and transmits a signal through the signaling channel, containing the sign of the CA, which is generated by block 15 fixing subscribers. The CA 2 is in readiness for receiving and transmitting interaction signals in the direction of the associated communication network 5 of the ATS 4, as well as receiving service signals from subscriber stations via information channels and a signaling channel. In each of AC 1 (see Fig. 2), the transceiver 10 transmitter is turned off, and the receiver is sequentially reconstructed by a command from automation unit 7 according to the group of frequencies allocated for the CA (time or time-frequency positions), analyzing each of them in block 11 binding, by the presence in the signaling channel of a signal with a sign of CA the fact of its presence in the zone of energy availability of the CA.

b) when the speakers enter the communication zone with the CA:
In this case, at the information input of the binding unit 11 (see Fig. 2), a signal received from the CA that contains the attribute of the CA appears. In the binding unit 11, it is identified, and the reception quality in the signaling channel is analyzed, as a result of which the binding unit 11 sets the transceiver 10 to full duplex mode, generates and transmits the signaling channel through the sealing unit 8, the information encryption unit 9 and the transceiver 10 to the side The CA binding signal, containing the individual number assigned to this AC, also sends a command to the transceiver 10 to stop its adjustment. This signal to the CA (see Fig. 3) through the block 13 forming the binding channels, block 9 encryption information, block 8, the seal goes to block 15 fixing subscribers, where it is identified and by analogy with the speakers, the analysis of the quality of reception in the signaling channel. As a result, the address of the attached speaker in the subscriber fixation unit 15 is remembered, and from the block 15, through the switching and interaction unit 14 in the telephone exchange 4 of the communication network 5 (see Fig. 1), a signal is sent to search for the telephone exchange in which the memory connected to it The CA was previously the number of the speaker to be attached, and this number is erased. In this case, a receipt signal is sent to the AC side from block 15, which, having arrived at the AC (see Fig. 2) in the binding unit 11, is fixed and stops sending the binding signal to the CA side, turns off the transmitter-receiver transmitter 10, and information about the fact of binding transmitted to the automation unit 7, where it is fixed (memorized).

c) upon transition of the speakers to the communication zone with the new CA:
When the AS is removed from the CA to which it was attached (its address was in the memory of the CA), the quality of the binding channel deteriorates, and when a certain limit, which is estimated by the binding unit 11 (see Fig. 2), the AS is restored to its initial state. After tuning the transceiver 10 to the frequency of the new CA, the process of recording the number in the memory of the new CA is repeated according to the algorithm described in paragraph b;
d) establishment of communication at the initiative of a mobile subscriber:
The mobile subscriber through the terminal block 6 (see Fig. 2) makes a request in the AS (for example, picks up the handset from the holder) to occupy one of the free information channels of the CA. Upon a command from the terminal block 6, the automation unit 7 selects one of the free information channels, “tinted” with a marker signal of the digital signal, stops at it, puts the transceiver 10 in full duplex mode and sends the busy signal to this digital signal via the channel: block 8 seals, block 9 encryption of information, transceiver 10, high-frequency circuit with antenna 12 and on the air. On the digital signal processor (see Fig. 3), this signal, having passed through block 13 for forming the binding channels, block 9 for encrypting information, and block 8 for multiplexing, enters block 14 for switching and interaction, where it is fixed, as a result of which the marker signal and channel are removed from this channel for all other objects it becomes busy. At the same time, the switching and interaction unit 14 occupies one of the connecting lines to the PBX connected to this DS, and the PBX transmits through the DS towards the AS via the information channel the acoustic signal “invitation to dial”, which is displayed on the terminal block 6 of the subscriber station (see Fig. 2).

 The mobile subscriber at the terminal block dials the number of the called correspondent, which is transmitted to the automation unit 7 and then goes along the path to the CA (see Fig. 3) to the switching and interaction unit 14, which then broadcasts it to the PBX 4 (see Fig. 1 ) to search for subscribers over the communication network 5. Having received the dialing signal, the PBX carries out the search for the subscriber according to the algorithm adopted in the communication network 5, and the acoustic signal “Call control” is sent to the called subscriber for the search period. When the subscriber answers, the path is switched off.

e) establishment of communication at the initiative of a subscriber of a communication network:
A subscriber of a communication network at its terminal dials an address containing an individual characteristic of the called AS. The PBX serving this subscriber distributes a signal containing the specified address over the communication network. Having received this signal, all the telephone exchanges of the network interrogate the CA 2 associated with them about the fact of "registration" of the required mobile subscriber, and the one in whose memory the given mobile subscriber is currently recorded, begins the connection establishment procedure.

 At the CA (see Fig. 3), in the area of which the AC is located, the request signal from the PBX enters the switching and interaction unit 14, which, by interrogating the subscriber fixation unit 15 and receiving from it a receipt confirming the presence of the required mobile subscriber in the zone the action of this CA, takes one of the free information channels, removing the marker signal from the transmission chain, and sends an address call signal through it, which is through the chain: switching and interaction unit 14, sealing unit 8, encryption unit 9, block 13 for forming binding channels and its high frequency circuit with antenna 12 is sent on the air.

 In the called AC (see Fig. 2), this signal through the transceiver 10, the information encryption unit 9, and the compaction unit 8 enters the automation unit 7, which recognizes it, stops scanning through the information channels, and transmits to the terminal unit 6 a signal that the call was received codograms. In block 6, this signal is displayed. After the subscriber’s response, for example, when the subscriber removes the handset from the holder, from the terminal block 6 through the automation unit 7, the transceiver 10 receives a command to turn it on in duplex mode, and from the automation unit 7 along the transmission path of the busy information channel to the CA — confirmation signal the fact of receiving a call, upon receipt of which, the CA switches in the block 14 switching and interaction information channel between the PBX and AC.

e) the transition of the system to its original state:
After the exchange of information ends, the system hangs up, i.e. its transition to its initial state is carried out according to the signals received from the corresponding subscribers. In this case, the CA is transferred to the initial state by the subscriber of the communication network 5, and the AC is transferred by the mobile subscriber, for example, by installing its terminals in the handset holders.

 In the CA (see Fig. 3), the “hang up” signal received from the exchange is perceived by the switching and interaction unit 14, which again marks the previously occupied information channel, and in the AC (see Fig. 2), the automation unit 7 turns off the transmitter-receiver 10 and resumes scanning the reception circuits of the information channels of the CA.

 As a terminal block 6, a device for conducting telephone conversations and messaging can be used, for example, a conventional telephone or a MT-50 type microphone, the capabilities of which are given in [3].

 As an example of the technical implementation of the automation unit 7 in FIG. 4 shows a variant of its structural-functional scheme.

 It contains an address call receiver 16, a marker signal receiver 17, a control and interaction unit 18, a scanning unit 19, a switching unit 20, an occupation and confirmation signal transmitter 21, an address transmitter 22. wherein n information inputs and outputs of the scanning unit 19 are linear information inputs and the outputs of the automation unit 7, and the station output of the scanning unit 19 is connected to the inputs of the marker signal receiver 17, the address call receiver 16, and is the station information output of the automation unit 7, the informational input of which through the switching unit 20 is connected to the station input of the scanning unit 19, the control input of which is connected to the first output of the unit 18, the second, third and fourth control outputs of which are connected respectively to the inputs of the switching unit 20, the transmitter of occupation signals and confirmation 21, the transmitter addresses 22, the control outputs of the receiver 16 of the address call and the receiver 17 of the marker signal are connected respectively to the first and second inputs of the block 18 of the control and interaction, two others whose inputs are the control inputs of the automation unit 7, and the control output of the address call receiver 16 and the fifth output of the block 18 are the control outputs of the automation unit 7.

 An embodiment of block 7 is described in the known source {3].

 The functioning of the automation unit 7 is as follows.

 After receiving from the block 11 of the binding (see Fig. 2) a control signal about the fact that the speaker is connected to the CA, this signal is sent to the control and interaction block 18, where it is fixed, giving permission for the mobile subscriber to establish communication with the CA.

 In the initial state, the scanning unit 19 connects the input of the receiver of the marker signal 17 to the receiving circuits of each of n information channels connected to the scanning unit 19 from the compaction unit 8, where their employment is analyzed.

 When a connection is initiated by the mobile subscriber, the last one from the terminal block 6 sends a control signal to the automation unit 7, which is sent to the control and interaction unit 18. As a result, when the receiver of the marker signal 17 is connected to the free information channel by the commands from block 18, the switching in the scanning block 19 stops and towards the CA from the busy and confirmation signal transmitter 21 through block 20 and block 19, the busy signal of the CA channel is sent. The marker signal from this channel is removed to the CA and to the mobile subscriber from the telephone exchange an acoustic signal “invitation to dialing” is received. The subscriber makes at the terminal block 6 dialing the number of the required subscriber of the communication network. These signals are sent to the control and interaction unit 18, by commands of which a signal containing the number of the called subscriber is transmitted through the blocks 20 and 19 to the DS side from the address transmitter 22. Next, the process of establishing a connection on the communication network.

 After the exchange of information from the terminal block 6 to block 18 sends the corresponding signal, having received which the latter generates the necessary commands for the transfer of all elements of the circuit to its original state.

 Upon receipt of the ringing signal from the CA, it arrives at the input of the address call receiver 16, which generates commands to the terminal unit 6 to produce an indication of the fact of the call and to the control and interaction unit 18. The latter generates and transmits commands to the scanning unit 19 to fix the information channel through which the call signal was received, and send a signal from the transmitter 21 through the block 20 to the DS side confirming the fact of receiving the call. After the subscriber answers to block 18, the corresponding command from the terminal block 6 is received and the information path is switched off.

 After the exchange of information between subscribers, the circuit returns to its original mode of operation.

 Block 8 of the seal is made according to the traditional scheme of frequency or time multiplexing. An embodiment of block 8 is given in [6].

Block 9 encryption of information is intended to close (encrypt) information transmitted over the radio path in order to exclude the interception and opening of its contents. It provides:
1) the conversion of the transmitted information into digital form and the inverse when receiving digital information into analog signals,
2) packet encryption and decryption of transmitted and received signals,
3) interfacing with communication channels according to the level of transmitted signals and the call system;
4) quality control of channels and control of the processes of connecting to the radio path.

 Introduced into the communication system with mobile objects, the information encryption unit 9 is a well-known technical device widely used in practice for providing confidential communication.

 An embodiment of block 9 is given in [5]. The device specified in [5] includes the following elements: an analyzer and synthesizer for a speech-converting device, a pseudo-random sequence generator, a removal unit and a cipher overlay unit, a cipher overlay quality control unit, an asynchronous conversion unit, a multiplexer, and interface units.

 The structural and functional diagram, technical and operational capabilities, as well as the embodiment of the transceiver 10 are given in [3]. As block 10, the radio transceiver 44RTM-A2-FM or 45RTM-A2-FM may be used.

 As an example of the technical implementation of the binding unit 11 in FIG. 5 shows a variant of its structural-functional scheme.

 The binding unit 11 (see Fig. 5) contains a binding signal transmitter 23, a receipt receiver 24, a channel 25 quality analyzer, an attribute indicator DS 26, a first 27 and a second 28 of the AND circuit, the output of the binding signal transmitter 23 being the information output of the binding unit 11 , and its information input is connected to the input of the receiver of the receipt 24, as well as the quality analyzer of the channel 25 and the receiver of the attribute CA 26, the outputs of which through the first 27 And circuit are connected to the first input of the transmitter of the binding signal 23 and to the first input of the second 28 of And circuit, which is the firstBinding directs the output unit 11, the second input of which is connected to the output of the receiver 24, and a receipt to the second input of the signal transmitter anchor 23, the output of the second AND gate 28 is the second control output of the anchor block 11.

 Block 11 binding works as follows.

 Upon receipt of a signal channel of the signaling channel from block 8 of the seal (see FIG. 2) of the signal containing the CA attribute, in the receiver 26 of the CA attribute, identification and quality analysis of this channel by block 25 takes place. In the case of a positive assessment of the channel quality and the presence of the corresponding CA signal the first input of the transmitter signal binding 23 from the output of the first 27 circuit And receives a command to send in the direction of the CA corresponding confirmation signal containing the individual number of the speaker. At the same time, a command is sent to the transceiver 10 to stop its tuning. Upon receipt from the CA confirmation of the fact of the binding recorded by the receiver of the receipt 24, from its output to the second input of the transmitter of the signal of binding 23 and the second input of the second 28 of the circuit And a command is received to stop sending the signal of binding, as a result of which the transmitter 23 is turned off, and in block 7 automation a signal is transmitted stating the fact that the speaker is connected to the CA and allowing the mobile subscriber to communicate.

 As block 12, an antenna device of 44RTM or 45RTM-A2-FM radio stations can be used, an embodiment of which is given in [3].

 Block 13 formation of the binding channels is a terminal radio relay station or a duplex radio station, a structural diagram, technical capabilities and an embodiment of which are given in [3].

 In FIG. 6 shows a variant of the structural-functional diagram of the block 14 switching and interaction of the CA.

 It contains a switching unit 29, a cabinet 30 of address receivers, a cabinet 31 of occupation and confirmation signal receivers, an interaction circuit 32, an switching and interaction control unit 33, an address call transmitter 34, a comparison circuit 35 and a marker signal generator 36, the output of the marker signal generator 36 connected to the corresponding input of the switching unit 29, the first n information inputs and outputs of which are the information inputs and outputs of the switching and interaction unit 14, and the second n information inputs and outputs which is connected to the corresponding outputs and inputs of the interaction circuit 32, the linear input and output of which are the linear input and output of the switching and interaction unit 14, while the first control input and output of the interaction circuit 32 through the switching and control unit 33 are connected to the first control input of the block 29 switching, the output of the receiver receivers 30 address, the second control input of the switching unit 29 through the address call transmitter 34 and the output of the receiver receivers signals occupation and confirmation 31, n the inputs of which are connected to the n inputs of the receiver receivers 30 and the first n information inputs of block 29, and the second control input and output of the interaction circuit 32 are connected to the corresponding output and input of the comparison circuit 35, the second input of which is the address input of block 14, the control output of which is the third control output of the interaction circuit 32.

The purpose and functionality of block 14 and switching and interaction are given in [3]. Block 14 solves the following tasks:
1) marking of free information channels;
2) recognition of the addressed call signals, signals of the central station occupation and confirmation of receipt by the subscriber station of the call from the side of the CA;
3) making an address call towards the speaker;
4) exchange of dialing signals with an automatic telephone exchange of a communication network;
5) assessment of the correspondence of numbers of called ACs coming from the PBX with the numbers of subscriber stations recorded in the subscriber fixation block 15.

 Block 14 switching and interaction works as follows.

 In the initial state, the output of the marker signal generator 36 is connected through block 29 to all n circuits of transmission of information channels, which indicates their unemployment. Upon receipt from the block 8 of the seal on any of the information channels of the occupation signal recorded in the cabinet 31 of the occupation signal and confirmation receivers, an appropriate command is sent from its output to the unit 33, as a result of which, in block 29, the marker is removed from the corresponding channel, the interaction circuit 32 takes the connecting line to the PBX and to the side to the speakers from the PBX broadcasts the signal "invitation to dial".

 The number of the required subscriber received from the AC through the cabinet 30 of the address receivers, the control unit 33 and the interaction circuit 32 is transmitted to the telephone exchange of the communication network, which, after receiving it, searches for the required subscriber on the network and connects the subscribers after its answer.

 Upon receipt of an order to establish a connection from the PBX of the communication network, the number of the required AS is stored in the comparison circuit 35 and, by command from the unit 33 transmitted through the interaction circuit 32 to the subscriber fixation unit 15, is compared with the AS numbers previously recorded in the CA memory. If the required AC number is not in the CA memory, the corresponding signal is sent to the PBX by the interaction circuit 32, and if the required subscriber is recorded in the memory of this CA, then the switching and interaction control unit 33 generates a command and transmits it to the switching unit 29, in which This command disconnects the output of the marker signal generator 36 from it and connects the transmission circuit of any of the free information channels to the output of the address call transmitter 34, which, upon command from block 33, sends via Leica Geosystems CA blocks broadcast address number of the called speaker. After that, from the PBX through the information channel, a call acceptance confirmation signal is received, which is identified in the cabinet 31 of the occupation and confirmation signal receivers, as a result of which the latter, through block 33, generates commands to stop sending the call signal and turn off the information path to the PBX of the communication network.

 When a command is received from a telephone exchange of a communication network to erase the number of a previously recorded AC, if it enters the coverage area of a new CA, this signal is transmitted through an interaction circuit 32 for execution (erasing a previously recorded AC number) to a subscriber fixation unit 15, having previously passed the previously described the process of comparing the speaker numbers entered and stored in the memory of the CA.

 As an example of the technical implementation of the subscriber fixation unit 15 in FIG. 7 shows a variant of its structural-functional diagram.

 The subscriber fixation unit 15 comprises a DS attribute transmitter 37, a switching unit 38, a receipt transmitter 39, a channel 40 quality analyzer, a reference signal receiver 41, an I 42 circuit and an AC number storage unit 43, the information input of the subscriber fixation unit 15 being connected to the inputs of the quality analyzer channels 40 and a binding signal receiver 41, the control outputs of which are connected via an AND 42 circuit to the control inputs of the receipt transmitter 39 and a binding signal receiver 41, the address output of which is connected to the address input of block 43 I am the number of speakers whose control input and output are respectively the control input and address output of the subscriber lock unit 15, while the information and control outputs of the receipt transmitter 39 are connected to the corresponding inputs of the switching unit 38, the second information input of which is connected to the output of the transmitter 37 of the CA attribute, and its output is the information output of the block 15 fixing subscribers.

 The functioning of the block 15 fixation of subscribers is as follows.

 The DS sign transmitter 37 through the switching unit 38 sends a corresponding signal to the signaling channel transmission path of the compaction unit 8 (see FIG. 3). Having received from the block 8 of the seal the binding signal from the speaker containing its number, this signal is fed to the receiver of the binding signals 41, where it is identified and stored. At the same time, the quality analyzer of channel 40 evaluates the quality of the binding channel and, if the channel is of satisfactory quality, sends a command to the receiver of binding signals 41 through the And 42 circuit to read the numbers of the attached subscriber station in the unit 43 for storing AC numbers. At the same time, from the output of the analyzer 40 through the AND circuit 42, the command also arrives at the receipt transmitter 39, which, through the switching unit 38, sends the corresponding information and control signals via the signaling channel to the AC side. Subsequently, the subscriber fixation unit 15 is ready, by analogy with the considered algorithm, to fix the addresses of other speakers located in the coverage area of this CA.

 The positive effect created by the proposed device, compared with the prototype, is to provide the possibility of increasing the number of serviced subscriber stations by increasing the number of CAs in the communication system with mobile objects and expanding territorial coverage without compromising the quality of service for mobile subscribers, as well as reducing the time to establish a connection, and can be estimated as follows.

 Firstly, if in a system that includes several central stations whose coverage areas mosaicly cover the served territory (see Fig. 1), automation of the processes of “subscription” of subscriber stations is not provided, then there may be cases of loss of calls from subscribers of the communication network . This situation can be illustrated by the example when any of the speakers in the Altai-3 system leaves the coverage area of any of the CAs, and since it does not have information about this and does not adapt to the radio data of the new CA, it practically leaves the service, although there is a corresponding CA in the new territory. Naturally, in this case, this speaker cannot be found by the communication system and a call will be lost.

 In the proposed system, this drawback is absent, since the subscriber station always adjusts to the specific CA in the served area, in the area of which it is located, while continuously maintaining the ability to receive a call from the communication network.

 Secondly, under the same conditions, for example, in the Altai-3 communication system, if it has several CAs with individual characteristics, when it comes to communication, it is forced, first of all, to search for the symptom of the CA in the coverage area of which it is located , and then establish a connection with her.

 Due to the need for unproductive expenditure of time on the choice of a CA, the time for establishing connections on the initiative of a mobile subscriber in the Altai-3 system will be longer than in the proposed version of the system, since in the latter case the phase of selection by the subscriber station of the central station is assigned to the automation and lasts until the moment of receipt from the mobile subscriber of an application for establishing a connection.

 At the same time, it was established by calculation that the proposed system significantly reduces the time of unproductive occupation of information paths and thereby reduces the time to establish a connection to the network.

 Since in the prototype overhead costs can reach 30 percent, in the proposed system, due to the absence of these costs, the connection time of subscribers to the network is reduced by about the same amount.

 A feature of the proposed system is also that due to the introduction of information encryption unit 9, communication secrecy is ensured in it, thereby expanding the operational capabilities of the proposed system for transmitting various types of information, the interception of which will not allow disclosing its content.

 Sources of information.

 1. USA, patent N 4810708 C. H 04 B 7/26, 1979.

 2. France, application N 2365918 cl. H 04 B 7/26, 1978.

 3. Radio stations of mobile communication: Reference book / On duty I.I. et al. - M .: Communication, 1979, p. 48 is a prototype.

 4. Lifshitz B. C., Fidlin Ya. V. Queuing systems with a finite number of sources. - M.: Communication, 1968.

 5. RF patent N 2117401 class. H 04 K 1/00, 1998.

 6. Messaging. Volume 2. Radio communication systems. - M.: Communication, 1973. p. 242.

Claims (1)

A communication system with moving objects, containing at each subscriber station a terminal block, an automation unit and a transceiver connected via a high-frequency circuit to an antenna, while the information and control inputs and outputs of the terminal block are connected respectively to the information and control outputs and inputs of the automation unit, the second control the output of which is connected to the first control input of the transceiver, and at the central station it contains a block for forming binding channels connected through a high-frequency total circuits with an antenna, the switching and interaction unit occupies one of the connecting lines to an automatic telephone exchange interfaced with this central station, and the subscriber and central stations are interconnected by radio channels through the antenna input and high-frequency circuits of the transceiver and the channel formation unit, respectively, characterized in that at each subscriber station, a compaction unit, an information encryption unit, and a binding unit are introduced, the control outputs of which are connected respectively to the additional inputs of the transceiver and the automation unit, and the information input and output are connected respectively to the output and input of the signaling channels of the compaction unit, n station information inputs and outputs of which are connected respectively to the second additional output and input
automation unit, and its linear input and output, respectively, with the station output and input of the information encryption unit, the linear input and output of which are connected respectively to the information output and the input of the transceiver, at the central station, an information encryption unit, a compression unit, and a subscriber fixation unit, information the input and output of which are connected respectively to the output and input of the signaling channels of the seal unit, and the address output and control input of the subscriber fixation unit are connected to the corresponding the input and output of the switching and interaction unit, while the information input and output of the binding channel generation unit through the information encryption unit are connected respectively to the information output and input of the compression unit, n station information inputs and outputs of which are connected to the corresponding inputs and outputs of the switching and interaction unit .

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