SU1660186A1 - Method for data transmission via packet-switched meteor burst communication network - Google Patents

Abstract

The invention relates to a data transmission technique. The purpose of the invention is to reduce the loss of information. With this method of data transmission in the packet network of the meteor communication at the central station, they form and emit a request signal for receiving information. At the peripheral station, a request signal is received and the availability of data to be transmitted is monitored. To ensure that information loss is reduced, the magnitude of the request signal is measured at the time it starts and at the time when the request signal is received. Then, the value T _{0 of the} remaining part of the duration of the existence of the meteor trace is calculated and its value is compared with the time T _p for transmitting the data packet. When the condition T ₀ is carried out ≥T _p formation transmit authorization signal. Dana il. the implementation of the device that implements this method. 1 il.

Description

The invention relates to a data transmission technique and can be used in the construction of a packet data collection network from remote sensors and terminals or the exchange of formalized information over meteoric radio channels.

The purpose of the invention is to reduce loss of information.

The drawing shows a diagram of the device that implements the proposed method.

The device comprises an amplitude meter 1, a digital-to-analog converter 2, a delay element 3, a comparison unit 4, a division block 5 and 6, logarithms 7 and 8, a division block 9, a multiplication unit 10, a comparator 11, an OR element 12.

A device that implements the proposed method works as follows.

The envelope of the received signal enters the 1 amplitude gauge, in which

The amplitude of the signal reflected from the meteor trail is estimated. The resulting value of the amplitude estimate of the signal Ui is digitized in converter 2 and fed to delay element 3, the delay time to in which is determined by the time required for transmitting the probe signal. The value of the amplitude estimate of the signal U2, measured after a specified time, is fed to the inputs of the divisible block 6 and the divider unit 5. At the same time, the threshold value of the signal amplitude, i.e. the minimum value at which normal operation of the terminal blocks is ensured, and the value of the initially measured amplitude of the signal Ui is input to the input of the divider of block 6. The quotient from the division from the output of block 5 goes to the logarithm 7 and then to the input of the divisible block

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ka 9, and the quotient or division of the error G is supplied to the logarithm 8 and subsequently to the input of the divider of block 9. The quotient from the divisions in block 9 enters the input of the multiplication unit 10, to the other input of which the value ta is fed. The resulting product from the output of block 10 is fed to the first input of the comparator 11, the second input of which receives the value of the time interval tn required to transmit the packet, and if the first is not less than the second, the output of the comparator 11 is a signal of the unit arriving at the first input of the element OR 12.8. Comparison block 4 compares Ui and U2. when the condition IJ2 S Ui is met, it corresponds to the case of using a multiplexed meteor track or areas of increased ionization of non-meteoric origin, and the output of device 4 generates a signal that is fed to the second input of the OR element 12. To prevent false triggering, except for the signal from the OR element output 12 and the availability of information intended to be transmitted to the master station, to enable the transmission, it is necessary to obtain a signal from the output of the decoder command, indicating that the reception is correct. millet to receive information.

Claims (1)

Invention Formula A data transmission method in the meteor communication packet network, in which a request signal for receiving information is generated and emitted at a central station, a request signal is received at a peripheral station, the availability of data to be transmitted is monitored, and generate a transmission resolution signal, which is different in that, in order to reduce information loss, the value of the request level and signal is measured at the time of its beginning and at the time of the end of receiving the ts request signal Ite, the value of the remaining part of the duration of the existence of the meteor trail to is calculated, in to -13 - In Uo UL U2 Ui where Uo is the threshold value of the amplitude of the received request signal, compare the values of the remaining part of the duration of the meteor trace with the time for transmitting the data packet tn, the formation of the transmission permission signal is intuitive when the condition to условtn is fulfilled. t3