RU2581847C1 - Device for controlling radio stations on mobile objects - Google Patents

Abstract

FIELD: radio engineering and communications.

SUBSTANCE: invention relates to communication engineering and can be used in mobile communication systems. In device for controlling radio stations includes two computers, two control panels a recording unit, two memory units, second OR element, two receivers of global navigation satellite system with antennas and new connections.

EFFECT: technical result consists in improvement of quality of transmitting test and/or information signals at forward and reverse communication channels.

1 cl, 1 dwg

Description

The invention relates to radio engineering and can be used in radio communication systems for remote monitoring of the technical parameters of radio stations and evaluating their performance.

A device for monitoring radio stations on moving objects [1], comprising a stationary radio transmitting device (RPDU), a radio receiving device (RPMU), a first controlled attenuator, a second controlled attenuator, a first control signal shaper, a second control signal shaper, a delay element, a shaper a control signal, a control unit, a command receiver, a threshold unit, a station number signal receiver, a registration unit, and at a mobile station, an antenna, RPMU and RPDU, a control signal receiver, threshold block, AND and OR elements, signal generator of the station number, driver of the start command, power level meter.

The disadvantage of this device is the low efficiency of control.

A device for monitoring radio stations on moving objects [2], containing at a stationary station RPDU, RPMU, the first controlled attenuator, the second controlled attenuator, the first driver of the control signal, the second driver of the control signal, the delay element, the driver of the control signal, control unit, command receiver , threshold unit, station number signal receiver, registration unit, station number signal generation unit, the output of the second controlled attenuator being connected to the RPMU input, the first output which is connected to the input of the receiver of the signal of the station number and the input of the command receiver, the outputs of which are connected respectively to the third input of the recording unit and the input of the control unit, the output of which is connected to the input of the shaper of the control signal, the input of the delay element, the input of the first shaper of the control signal and the second control input the second controlled attenuator, the first control input of which is connected to the output of the second driver of the control signal, the input of which is connected to the output of the delay element ki, the output of the signal conditioning unit of the station number and the output of the control signal generator are connected to the input of the RPDU, the output of which is connected to the input of the first controlled attenuator, the control input of which is connected to the output of the first driver of the control signal, and the output is connected to the transmitting antenna, the second output of the RPMU is connected to the input of the threshold unit, the output of which is connected to the second input of the registration unit, the first input of which is connected to the output of the receiver of the signal of the station number, the first and second inputs of the formation unit the station number needle is respectively connected to the input of the control signal generator and to the output of the station number signal receiver, the third input serves to enter information about the number of the controlled mobile radio station, the receiving antenna is connected to the input of the second controlled attenuator, and the antenna, RPMU and RPDU are connected to the mobile station, control signal receiver, threshold block, AND and OR elements, station number signal conditioner, start command shaper, power level meter, station number signal receiver, and ante through an antenna switch it is connected, respectively, to the outputs of the power level meter and to the input of the radio receiver, the first output of which is connected to the input of the signal receiver of the station number, and the second and third outputs are connected respectively to the input of the control signal receiver and the input of the threshold block, the output of which is connected to the second the input of the element And, the first input of which is connected to the output of the receiver of the control signal, the output of the element And is connected to the input of the signal former of the station number, the output of which is connected to the first input of the OR element, the second input of which is connected to the output of the shaper of the start command, the input of which is connected to the output of the receiver of the signal of the station number, the control input of which is connected to the control output of the power level meter, the input of which is connected to the output of the RPDU, the input of which is connected to the output of the OR element .

The disadvantage of this device is the inability to quantify the quality of operation of controlled radio stations and, therefore, their performance.

Closest to the proposed technical essence is a device for monitoring radio stations of moving objects [3], comprising a stationary radio transmitter, radio receiver, first controlled attenuator, second controlled attenuator, first control signal shaper, second control signal shaper, delay element, shaper control signal, control unit, command receiver, threshold unit, station number signal receiver, registration unit, signal conditioning unit station numbers. The output of the second controlled attenuator is connected to the input of the radio receiver, the first output of which is connected to the input of the signal receiver of the station number and the input of the command receiver, the outputs of which are connected respectively to the third input of the recording unit and the input of the control unit. The output of the control unit is connected to the input of the shaper of the control signal, the input of the delay element, the input of the first shaper of the control signal and the second control input of the second controlled attenuator. The first control input of the second controlled attenuator is connected to the output of the second driver of the control signal, the input of which is connected to the output of the delay element. The output of the station number signal conditioning unit and the output of the control signal generator are connected to the input of the radio transmitting device, the output of which is connected to the input of the first controlled attenuator, the control input of which is connected to the output of the first control signal generator, and the output is connected to the transmitting antenna. The second output of the radio receiver is connected to the input of the threshold unit, the output of which is connected to the second input of the registration unit, the first input of which is connected to the output of the receiver of the signal of the station number. The first and second inputs of the station number signal generation unit are respectively connected to the input of the control signal generator and to the output of the station number signal receiver, the third input is used to enter information about the number of the controlled mobile radio station. A receiving antenna is connected to the input of the second controlled attenuator, and at the mobile station, an antenna, a radio receiving device and a radio transmitting device, a control signal receiver, a threshold unit, an AND element and an OR, a station number signal generator, a start command generator, a power level meter, a signal receiver station numbers, and the antenna through the antenna switch is connected respectively to the outputs of the power level meter and the input of the radio receiver, the first output of which is connected to the input riemnika signal station number, and the second and third outputs respectively connected to an input control signal receiver and the input of the threshold unit. The output of the threshold block is connected to the second input of the And element, the first input of which is connected to the output of the control signal receiver. The output of the AND element is connected to the input of the signal generator of the station number, the output of which is connected to the first input of the OR element, the second input of which is connected to the output of the driver of the start command. The input of the start command generator is connected to the output of the station number signal receiver, the control input of which is connected to the control output of the power level meter, the input of which is connected to the output of the radio transmitting device. The input of the radio transmitter is connected to the output of the OR element. At the mobile station, the input of the frequency meter is connected to the output of the radio transmitter, and the output of the frequency meter is connected to the first input of the identification unit, the second input of which is connected to the output of the power level meter. The control output of the launch command generator is connected to the control input of the identification unit, the output of which is connected through the antenna switch to the antenna.

The disadvantages of the prototype include:

- the device is designed to control only one mobile radio station, so the equipment of a stationary radio station is not used effectively;

- the “transmit-receive” process during monitoring on a mobile radio station is not controlled by any node;

- the distance between the stationary and mobile radio stations is not taken into account, which affects the power level of the received radio signal and may introduce additional errors when evaluating the estimation of parameters and the operability of the structural elements of the system;

- the identification unit, the structure of which is presented in the prototype, is a control device, so it cannot provide the transmission of a radio signal from a transmitting device to an antenna switch;

- no records of controlled radio stations are kept.

The aim of the invention is to expand the functionality of the radio communication system in terms of evaluating the parameters and the health of the structural elements of the stationary and mobile radio stations of the system by the totality of the signals emitted and received by the radio stations, while the achieved level of quality of functioning can be estimated by the quality of transmission of test and / or information signals directly and reverse communication channels.

The specified technical result is achieved by the fact that in a known device comprising a first radio transmitting device, a first radio receiving device, a first controlled attenuator, a second controlled attenuator, a first control signal shaper, a second control signal shaper, a delay element, a control signal shaper, a control unit , command receiver, first threshold block, station number signal receiver, first registration unit, first station number signal generating unit moreover, the output of the second controlled attenuator is connected to the input of the first radio receiver, the first output of which is connected to the input of the signal receiver of the station number and the input of the command receiver, the outputs of which are connected respectively to the third input of the first recording unit and the input of the control unit, the output of which is connected to the input of the signal shaper control, the input of the delay element, the input of the first driver of the control signal, the corresponding input of the first radio receiving device and the second control input the second controlled attenuator, the first control input of which is connected to the output of the second driver of the control signal, the input of which is connected to the output of the delay element, the output of the first signal conditioning unit of the station number and the output of the driver of the control signal are connected to the input of the first radio transmitting device, the output of which is connected to the input of the first controlled attenuator, the control input of which is connected to the output of the first driver of the control signal, and the output is connected to the transmitting antenna, the second One of the first radio receiver is connected to the input of the first threshold block, the output of which is connected to the second input of the registration unit, the first input of which is connected to the output of the station number signal receiver, the first and second inputs of the first station number signal conditioning unit are respectively connected to the input of the control signal generator and to the output of the receiver of the signal number of the station, the third input is used to enter information about the number of the monitored mobile radio station, connected to the input of the second controlled attenuator and a receiving antenna, and at a mobile station, an identification unit, a transmitting and receiving antenna, a second radio receiving device and a second radio transmitting device, a control signal receiver, a second threshold unit, an AND element, a first OR element, a second station number signal conditioner, a start command shaper, a level meter power, the receiver of the signal number of the station, and the transceiver antenna through the antenna switch is connected respectively to the input of the second radio receiving device, the first output of which is connected with the input of the receiver of the signal of the station number, and the second and third outputs are connected respectively to the input of the receiver of the control signal and the input of the second threshold block, the output of which is connected to the second input of the element And, the first input of which is connected to the output of the receiver of the control signal, the output of the element And is connected to the input the second signal conditioner of the station number, the output of which is connected to the first input of the first OR element, the second input of which is connected to the output of the launch command former, the input of which is connected to the output of the second the receiver of the signal of the station number whose input is connected to the first output of the second radio transmitting device, the input of which is connected to the output of the first OR element, the input of the frequency meter is connected to the second output of the second radio transmitting device, and the output of the frequency meter is connected to the first input of the identification unit, the second input of which is connected with the output of the power level meter, the control input of the launch command generator is connected to the output of the identification unit, additionally introduced at the stationary station - the first numerator connected by two-way communications to the first control panel, registration unit, first memory unit, first station number signal generating unit, first radio transmitting device, first radio receiving device, second controlled attenuator, control unit, the output of which through the second OR element is connected to the input of the first shaper control signal, the output of the first calculator is connected to the second input of the second OR element, the output of the first receiver of the global navigation satellite system with the antenna is connected to the input of the first calculator, on the mobile station, the second calculator connected by two-way communications to the second control panel, the second recording unit, the second memory unit, the start command generator, the second station number signal generating unit, the second radio transmitting device, the second radio receiving device, the antenna to the switch, the output of the second receiver of the global navigation satellite system with an antenna is connected to the input of the second computer, the output of the second computer is connected the third input of the first OR gate, the identification unit output is connected to a corresponding input of the second calculator, the antenna switch control input is connected to the third output of the second radio transmission device, the stationary station may be connected to any of control to mobile stations.

The figure shows a structural diagram of a device for monitoring radios of moving objects and designations are introduced.

Stationary station 42:

1 - the first radio transmitting device;

2 - the first radio receiving device;

3 - the first controlled attenuator;

4 - the second controlled attenuator;

5 - the first driver of the control signal;

6 - the second driver of the control signal;

7 - delay element;

8 - shaper control signal;

9 - control unit;

10 - receiver commands;

11 - the first threshold block;

12 - receiver of a signal of station number;

13 - the first registration unit;

14 - the first unit of signal generation station number;

27 - transmitting antenna;

28 - receiving antenna;

31 - the first computer;

32 - the first receiver of a global navigation satellite system with an antenna;

33 - the first control panel;

34 - the first block of memory;

35 - the second element OR;

43 - input for entering information about the number of the monitored mobile radio station 41.

Mobile station 41:

15 is a second radio transmitting device;

16 - control signal receiver;

17 - the second threshold block;

18 - the first element OR;

19 is a second signal conditioner of the station number;

20 - shaper command launch;

21 - power level meter;

22 - the element And;

23 - the second radio receiving device;

24 - a receiver of a signal of station number;

25 - frequency meter;

26 - identification block;

29 - transceiver antenna;

30 - antenna switch;

36 - second calculator;

37 - the second receiver of the global navigation satellite system with an antenna;

38 - second control panel;

39 - second registration unit;

40 - the second block of memory.

The device operates as follows. When you turn on (power) all nodes of the equipment stationary 42 and all (to pieces) of the mobile stations 41 is set to zero. The initial control data can be entered using the control panels 33 and 38 or at the input 43. At the beginning of operation, the second driver 6 of the control signal generates a signal at the control input of the second control attenuator 4, at which its attenuation is minimal. When a control signal is supplied to the start signal generator 20 (carried out by the mobile station operator using the control panel 38), the radio transmitter 15 is turned on. The power and frequency of the signal of the emitted radio transmitter 15 is measured by a power level meter 21 and a frequency meter 25. The value of power and frequency from the power level meter 21 and the frequency meter 25 are input to the identification unit 26, in which the measured information parameters of the output radio signals of the monitored radio transmitting device 15 are evaluated, compared with the required ones and a decision is made based on the results of comparison in the second calculator 36 of the controlled and reference radio devices. If the results are negative, then a decision is made to switch the transmitting device to a different frequency using the second calculator 36. The monitoring results are displayed on the screen of the second recording unit 39 and are recorded in the second memory block 40. The output of the identification unit 26 generates a signal to the driver 20 of the start commands, which generates a command indicating the required quality of the system. A signal containing information about the health of the radio transmitting device 15 from the output of the start command generator 20, through the first OR element 18, is fed to the modulation input of the radio transmitting device 15 and, having passed the antenna switch, opened with the help of the second computer 36 and the transceiver antenna, is radiated into space. This radio signal of the mobile station after the receiving antenna 28 is received and detected by the radio receiver 2 of the stationary station, allocated by the receiver 10 commands and the control result of the radio transmitting device 15 is recorded on the screen of the recording unit 13 and is entered into the first memory block 34. After that, commands are transmitted from the control unit 9, by which the control signal generator 8 is turned on, and the control signal inclusion command is also sent to the station number signal generation block 14 and the first control signal generator 5, and after a delay time t ₃ determined by the delay element 7, the second driver 6 of the control signal is turned on. Shaper 8 of the control signals includes a radio transmitting device 1, the carrier frequency of which is modulated by the control signal. The output voltage of the first driver 5 of the control signal, for example, increases linearly, while the attenuation of the first controlled attenuator 3 decreases, and therefore, the power radiated through the transmitting antenna 28 by the stationary station increases gradually. The control signal, having passed the transceiver antenna 29, the antenna switch 30 opened by the second transmitter 36, is received by the radio receiver 23 of the mobile station 41. Then, in the receiver 16 of the control signal and in the threshold unit 17, when the input signal reaches a predetermined level, discrete signals are generated that are input element And 22, and at its output a signal appears, including the shaper 19 of the number signal, and through the second element OR 18, the radio transmitting device 15 is transferred to the transmission mode of the number of the mobile station 41. After starting the first driver 5 of the control signal after a time determined by the delay element 7, the second driver 6 of the control signals is turned on. The delay time should correspond in the sum of the time that the mobile station 41 needs to switch from the reception mode to the transmission and operation of the receiver 12 of the station number signal. The output voltage of the second driver 6 of the control signal controls the attenuation of the second controlled attenuator 4, that is, the transmission coefficient of the signal from the antenna to the radio receiver 2 changes. If the sensitivity of the monitored radio receiver 23 is normal, then the number of the mobile station 41 is received at the stationary station 42 and decoded by the receiver 12 station number signal with a known distance between stations 41 and 42, calculated using calculators 31 and 36 according to receivers 32 and 37 of global navigation satellite systems with antennas [4], and such a attenuation value of the second controlled attenuator 4, which, with a working radio transmitter 15, corresponds to a signal level at the input of the radio receiver 2 below the threshold of the threshold unit 11. In this case, the recording unit 13 fixes serviceability of the radio receiving device 23 with the number of the tested mobile station 41 and this data to the corresponding blocks 34 and 40 (in the case of the exchange of data between stations 41 and 42). If the sensitivity of the radio receiver 23 is below normal, then the threshold unit 17 is activated at a higher power level at the output of the first controlled attenuator 3, that is, at a later point in time. The attenuation of the second controlled attenuator 4 in this case is less, and when decoding the number of the mobile station 41, a signal is generated at the output of the threshold unit 11, indicating a malfunction of the tested radio receiver 23, which is recorded in the first calculator 31 and the recording unit 13 and transmitted through nodes 1, 3, 27, 29, 23 to the second calculator 36 and, as appropriate, are displayed on the screen of the registration unit 39 of the mobile station 41. In addition, the number of the station currently being monitored 41 from the output of the signal receiver 12 station number enters the block 14 of the formation of the signal number of the station and through it the first transmitter 31 is transmitted to the block 34 of the memory, where it is stored. Thus, the device operates with remote monitoring of each of the mobile stations 41 (control initiated by the mobile station).

When controlling control from a stationary station 42, the device operates as follows. In block 14 of the signal generation station number is entered (through the third input 42 or from the remote control 33 through the first computer 31) the conditional number of the station, the monitoring of which must be carried out. The station number generating unit 14 controls the presence of a signal at the output of the control signal generator 8. In the absence of a control cycle, from the output of the station number signal generating unit 14 to the input of the radio transmitting device 1, a command is issued to turn on the radio transmitting device 1 for radiation and the signal number of the controlled station 41 is input. The signal about the number of the controlled mobile station 41 is transmitted from the output of the radio transmitting device 1 through the first controlled attenuator 3, antennas 27 and 29, the antenna switch 30 is fed to the input of the radio receiver 23 of the monitored mobile station 41, it is detected and fed to the receiver 24 but EPA station where a comparison of the received conditioned rooms with a number assigned to a given mobile station. If the numbers match, then at the output of the receiver 24 of the station number signal, a command is generated that is fed to the input of the start command generator 20 and turns it on. Further, the device operates in the same way as when controlling control from the mobile station 41.

In the case of a monitoring cycle, the station number generating unit 14 through a delay time t ₃ carries out a new monitoring cycle. And, if there is no control cycle, then the operation of the device is carried out as described above. The delay time t ₃ is chosen equal to the maximum duration of the control cycle of one moving object.

In another embodiment of the use of the device, taking into account the fact that all the radio stations operate in a single time mode, an appropriate time interval is allocated for testing each monitored mobile station 41. In case of receiving a signal about a malfunction of the equipment of one of the mobile stations 41 at the stationary station 42, the cyclic testing programmatically with the help of the first calculator 31 stops and the evaluation of the parameters of the corresponding station 41 begins and a decision is made, for example, to switch to the reserve or to another operating frequency.

Introduced nodes: calculators 31 and 36, control panels 33 and 38, registration unit 39, memory blocks 34 and 40 can be executed, for example, on the INFOPRO MVK-2 TZHKL.466216.002 mobile computing complex, and the OR element can be executed on a serial chip, for example 1533 series.

The receivers 32 and 37 of the global navigation satellite system with antennas can be implemented, for example, on devices such as Jupiter 12 GPS Receiver TU 35-D410.

Frequency meter 25 can be implemented, for example, according to the circuit shown in FIG. 3 prototypes.

The identification unit 26 may be implemented, for example, according to the circuit shown in FIG. 5 prototypes. The only difference is that the output of the identification unit 26 is connected not to the antenna, but to the corresponding input of the second computer 36 and to the control input of the driver 20 of the start command.

The claimed invention has the following advantages:

- due to the use of global navigation satellite system receivers with antennas at all stations 41 and 42, a network of subscribers having a single time is created, which simplifies the process of monitoring and evaluating the parameters of mobile stations 41, and also, when evaluating their parameters, allows you to take into account the distance between a stationary and a mobile radio station , calculate in the first calculator 31 additional power losses of the received radio signal and more accurately evaluate the parameters and, therefore, the health of the structural elements;

- in the first calculator 31 in the registration unit of the stationary station 42 there is complete information about the state of all monitored mobile stations 41, which can be displayed on the screen of the registration unit 13 of the stationary station 42;

- the device allows you to control in automatic mode using the first calculator 31 is not one, but a given number of mobile stations 41;

- the process of "reception-transmission" during control at the mobile station is controlled using the second calculator 36.

The above links and comparison of the claimed device with other analogs shows that the newly introduced nodes are known to specialists in the field of communication technology. This device is significantly different from the known analogues in the field of communication technology, it does not explicitly follow from the prior art, is non-traditional, therefore it meets the patentability condition “inventive step”. The invention has significant differences from the prototype. The introduced nodes: two calculators, two control panels, a second registration unit, two memory blocks, a second OR element, two receivers of a global navigation satellite system with antennas with their connections indicate compliance with the patentability condition “novelty”. The inventive system can be implemented in software using existing serial devices used in communications and computer engineering, and is industrially applicable.

The drawing illustrates only one embodiment of the invention and should not be considered as limiting the scope of the invention, since it may have other, equally effective embodiments and the invention is not limited to them, as various changes may be made without departing from the scope of the invention .

Literature

1. USSR copyright certificate No. 1185626.

2. Copyright certificate of the USSR No. 1499515.

3. RF patent No. 2142203 (prototype).

4. GPS - a global positioning system. - M .: PRIN, 1994, 76 p.

Claims (1)

A device for monitoring radio stations on moving objects, comprising a first radio transmitting device, a first radio receiving device, a first controlled attenuator, a second controlled attenuator, a first control signal shaper, a second control signal shaper, a delay element, a control signal shaper, a control unit, a command receiver , a first threshold unit, a station number signal receiver, a first registration unit, a first station number signal generation unit, wherein the output is w The horn controlled attenuator is connected to the input of the first radio receiver, the first output of which is connected to the input of the receiver of the signal of the station number and the input of the command receiver, the outputs of which are connected respectively to the third input of the first recording unit and the input of the control unit, the output of which is connected to the input of the control signal shaper, input delay element, the input of the first driver of the control signal, the corresponding input of the first radio receiving device and the second control input of the second control the attenuator, the first control input of which is connected to the output of the second driver of the control signal, the input of which is connected to the output of the delay element, the output of the first signal conditioning unit of the station number and the output of the driver of the control signal are connected to the input of the first radio transmitting device, the output of which is connected to the input of the first controlled attenuator the control input of which is connected to the output of the first driver of the control signal, and the output is connected to a transmitting antenna, the second output of the first radio the receiving device is connected to the input of the first threshold unit, the output of which is connected to the second input of the registration unit, the first input of which is connected to the output of the receiver of the signal of the station number, the first and second inputs of the first signal generation unit of the station number are respectively connected to the input of the control signal generator and to the output of the receiver station number signal, the third input is used to enter information about the number of the controlled mobile radio station, a receiving antenna is connected to the input of the second controlled attenuator a, and at the mobile station, an identification unit, a transceiver antenna, a second radio receiver and a second radio transmitter, a control signal receiver, a second threshold block, an AND element, a first OR element, a second station number signal conditioner, a start command shaper, a power level meter, the receiver of the signal of the station number, and the transceiver antenna through the antenna switch is connected respectively to the input of the second radio receiving device, the first output of which is connected to the input of the receiver and the station number signal, and the second and third outputs are connected respectively to the input of the control signal receiver and the input of the second threshold block, the output of which is connected to the second input of the And element, the first input of which is connected to the output of the control signal receiver, the output of the And element is connected to the input of the second driver the signal of the station number, the output of which is connected to the first input of the first OR element, the second input of which is connected to the output of the start command shaper, the input of which is connected to the output of the second receiver and the numbers of the station, the input of which is connected to the first output of the second radio transmitting device, the input of which is connected to the output of the first OR element, the input of the frequency meter is connected to the second output of the second radio transmitting device, and the output of the frequency meter is connected to the first input of the identification unit, the second input of which is connected to by the output of the power level meter, the control input of the launch command generator is connected to the output of the identification unit, characterized in that it is additionally introduced into it at a stationary station II - the first computer connected by two-way communications to the first control panel, the registration unit, the first memory unit, the first signal number generating unit of the station, the first radio transmitting device, the first radio receiving device, the second controlled attenuator, the control unit, the output of which through the second OR element is connected to the input of the first driver of the control signal, the output of the first computer is connected to the second input of the second OR element, the output of the first receiver of the global navigation satellites of the first system with an antenna connected to the input of the first computer, at the mobile station - the second computer connected by two-way communications to the second control panel, the second recording unit, the second memory unit, the shaper of the start command, the second signal generation unit of the station number, the second radio transmitting device, the second radio receiver the device, the antenna switch, the output of the second receiver of the global navigation satellite system with an antenna is connected to the input of the second computer, the output of the second It is connected to the third input of the first OR element, the output of the identification unit is also connected to the corresponding input of the second computer, the control input of the antenna switch is connected to the third output of the second radio transmitting device, a stationary station can be connected to control any of the mobile stations.

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