SU856017A1 - Device for automatic selection of radio communication channels - Google Patents

Description

The invention relates to radio engineering and can be used at receiving radio centers to automate the selection of receiving channels that are free from interference. A device for automatically selecting channels of communication, containing a serially connected block of permitted frequencies, a receiver, a measuring unit, a block for selecting the storage of the optimum communication frequency 1, is known. The disadvantage of this device is that it does not provide the choice of optimal frequencies for several radio links of the receiving center with group use or the same authorized parts. The closest to the proposed technical entity is the automatic channel dialing device for device containing the analysis unit, the source data storage unit, the control unit and the antenna switch and receiver connected in series (2}. The disadvantage of this device is low noise immunity. The purpose of the invention is to increase the noise immunity. radio channels, containing the analysis unit, the source data storage unit, the control unit and the antenna commutator and receiver connected in series, the input data input unit is entered, between the output receiver and the input of the analysis unit includes a filtering unit, the first output of the control unit is connected to the input of the initial data storage unit, to the output of which a storage register is connected, another output of the receiver is connected to the control input of the analysis unit, between whose output and the first input of the control unit are connected in series with the unit frequency selection, the control inputs of which are connected to the output of the source data storage unit and the second output of the control unit, respectively, the memory element, the control input of which is connected third output of the control unit and the comparison element, the other input of which is connected to a memory unit Yield raw data between the outputs of the memory register and control inputs nadimi antenna switch, and a receiver unit

filtering included (Accordingly, the first decoder, memory block of the neck frequency and the second decoder, another output of the analysis unit is connected to the second input of the control unit, the third input of which is the input of the source data, and the other inputs of the source data storage unit and the Frequency connected to the corresponding output block input data.

The drawing shows a structural electrical circuit of the proposed device.

The device for automatic selection of radio channels contains analysis block 1, source data storage block 2, control block 3, antenna switch 4, receiver 5, source data block 6, filtering block 7, memory register 8, frequency selection block 9, element 10 RAM, reference element 11, first decoder 12, permitted frequency memory block 13 and second decoder 14,

The device works as follows.

Before starting work by means of block 6, the ratings of the frequencies permitted for communication are recorded in block 13, and in block 2 for X1 of each radio line - the numbers of frequencies assigned for it, from among the allowed frequencies, the antenna number and the filter number. The frequency numbers recorded in block 2 are also addresses of block 13.

When a frequency request is received from a radio link, control unit 3 selects the first block address 2 assigned to this radio link, and from this block the antenna number code, frequency number code and filter number code are written to the corresponding bits of the memory register 8. The antenna number code is converted by the first decoder 12 into a signal at one of its outputs, according to this signal, antenna switch 4 connects the selected antenna to receiver input 5. The frequency number code is converted in block 13 to the corresponding frequency, and the frequency code recorded at this address is received to receiver 5. The code of the filter number is converted by the second decoder 14 into a signal at one of its outputs, and this signal in block 7 connects the selected filter between the output of receiver 5 and the input of block 1. By selecting the filter, it determines the bandwidth in which the level measurement is performed.

Simultaneously with the choice of the address of block 2, block 3 polls the addresses of the element 10 of operating memory. In this comparison element 11 compares the number of frequencies received from the output of block 2, with the number of frequencies transmitted to radio links to previous requests and stored in element 10 of operational memory If there is a coincidence of the compared numbers, then the signal from the comparison element 11 of the control block 3 connects the block 2 to the next address of the given radio link. If, as a result of polling all the addresses of the element 10, the matching numbers in element 11 do not coincide, then at the end of the process of tuning the receiver 5 to the specified frequency, block 1 receives a ready signal, and block 1 measures the interference level. The measured interference level and the frequency number VH which it produced, coming from the output of block 2, are stored in block 9 and from block 1 the control signal 3 receives the request signal of the next frequency and the described process repeats.

After the end of the interference measurement at the second frequency, the interference levels of the first and second frequencies are compared, the worst result is erased, and the best one is stored and compared with the next measurement result. Upon completion of the analysis of all frequencies assigned to this radio link, in block 9 there remains a number of frequencies having a minimum level of interference, which is rewritten to element 10 by the command from control unit 3. RAM to the address of the radio link that made the request, and the output bus arrives at this radio link;

If the work process receives a request to emit a frequency from another radio link, it is memorized in control unit 3 and when the frequency is completed for the first radio link, the device automatically switches to the frequency selection for the other radio link.

Thus, the proposed device automatically selects the optimal communication frequencies for several radio links of the receiving center for group use of the frequencies assigned to CINC. And. The use of the device allows to reduce the total number of frequencies assigned by radio links, and, at the same time, to more efficiently use the selected group of frequencies, creating the possibility of maneuvering frequencies and assigning any of them to any radio link.

Claims (2)

1.Assignment of the USSR on the application 2305694 / 18-09, cl. H 04 V. 2.Patent of Hungary 164978 0 cl. H 04 B 1/10, 1972 (prototype).