SU720461A1 - Device for multiplexing and restoring information - Google Patents

Description

The invention relates to the field of measurement and computing, in particular, to devices that process and restore information about oscillatory processes, and can be widely used in secondary information processing and analysis.

Information receiving and retrieving devices are known, comprising receiving blocks, memory blocks, recovery blocks, and conversion blocks 11.

The closest in technical essence to the proposed is a device for compressing and restoring information, comprising a decoder, the input of which is connected to the input of the device, the first output is connected to the input of the forward coefficient calculation unit, and the information generation unit, the output of which is connected to the output of the device. Switched data is received at the input of the decoder, one input of the information generation unit is connected to the output

the decoder, and the other with the output of the computing unit of the direct L211 coefficients.

When the device is in operation, a linear approximation of the intermediate measurement values is made according to the calculated direct coefficients.

A disadvantage of the known device is that it only restores the results of intermediate measurements, but does not exclude the Distortions introduced by the non-linearity of the amplitude-frequency characteristic (AFC) of the sensor, while the distorted information can no longer be taken into account for further processing. .

The purpose of the proposed device vp -. It extends the functionality and improves the accuracy of the device when playing real information about the amplitudes of the oscillations and measuring the frequency of the oscillations of the process.

Claims (2)

The goal is achieved by the introduction of the initial ordinate block, the subtraction block, and the counter into the device. dividers, task blocks and a sign analyzer, whose input is connected to the first output of the coefficient calculation unit, the second output of which is connected to the first input of the counter, the first and second outputs of the sign analyzer are connected to the First and second inputs of the initial ordinate reception unit, the third output to the second the output of the direct coefficient calculation unit is connected to the counter inputs, the third input of the initial ordinate receiving unit is connected to the second output of the decoder, and the output through the subtraction unit with the first input of the first divider, output s of the counter and the first task block with ". They are connected to the inputs of the second divider, the GEER and second outputs of which are connected: to the first input of the information generation unit and through the first job to the second input of the first splitter, the output of which is connected to the second input of the information generation unit. The invention is illustrated in the drawings, where in FIG. Figure 1 shows:;, the locus diagram of the device.ch for compressing and reproducing information, the diagram of the operation of the device in Fig.2, and FIG. 3 - the frequency response of the sensor. Usgroystzo socialist and decoder 1 with switched data, block 2, L7, number of direct coefficients, faint 3 formations, analyzer, 4 characters, performed on the sign analysis unit 5, block 6, receiving ps-positive coefficients O. and block 7 for receiving negative coeff. factors, block. 8 of the reception of the initial order, the block 9 is up, the counter 10, the first divider 11, blocks 12 and 13 of the NIN and the second divider 14. The device works as follows. The information from the decoder 1 in the form of switched discrete DVNNYEH is successively entered in block 2 for calculating the direct coefficients by dividing the difference of the ordinates of the current and previous measurements in square meters. sampling time. In the case of an increase in the measured function, this coefficient is positive, in the case of a decrease, it is negative. For each current measurement, in comparison with the preceding one, the direct coefficients are obtained, which are 4 digits directly into the analyzer, where after analyzing the sign in block 5, the signal enters block 6 or 7 depending on the sign of the direct coefficient. The first posting in the block 6 or 7 is sent to the block for receiving the initial ordinates, which, on that signal, opens and passes block 1 to the corresponding ordinate and the duration of the passage of this order. The obtained ordinate value goes from block 8 to block 9 subtraction. After the change of the sign of the coefficient of the ratio, another block of reception of the coefficients 6 or 7 is triggered and a signal is sent to block 8, but the co-unit 8 opens and again sends the modified ordinate and the corresponding time value to block 9. Thus, in block 9 Г7ос7 - fall after the gate 1 ;; about two lines of the minimum to the maximum: for oo, the in .ieaeHHj period; fugkyin, that is, the period T. | one hesitation. In block 9 of the subtraction, the sharpness of A i X |, - y received by the orcinate is measured, the amplitude of the oscillation is transmitted, and the splitter 11, at the same time as g: with information from block 2, the number of signals is transmitted from counter 2 received for the time interval on which the first derivative changes the sign once, that is, the number of signals corresponding to one period of oscillation. The coded signals are sent to divider 14. In block 12, a value is set corresponding to the number of information signals received per second, i.e., the MQ frequency of the parameter polling is set. In the divider 14, the oscillation frequency is determined by dividing the sampling frequency NP by the number of signals received during one oscillation period, and then this information is sent as frequency V to block 3. In block 13 there is a frequency response table for the sensor that specifies ;. - coefficient K of signal amplification from frequency; {fig. 3). Based on the value of the frequency, E. is used to select the best K Q coefficient, which is sent to divider 11, where the magnitude of the amplitude received from block 9 is divided by the coefficient Kg, whereby the real amplitude A is reproduced taking into account the coefficient of the frequency response of the sensor. The calculated amplitude values are sent to block 3. In FIG. 2 shows measured discrete information with a plate A and refined by this device. With amplitude A. In block 3, information is sequentially generated in the form of A ;, and t with an abbreviated amplitude, current frequency, and time of passage of this oscillation. The device allows you to restore the actual information about the periods and amplitudes of the process oscillations, and with a larger amount of incoming information, significantly reduce it and at the same time obtain the results of the process analysis The invention The device for compressing and restoring information containing the decoder, the input of which is connected to the input of the device, is first connected to the input unit of the calculation of the coefficients direct, and the unit of formation of information, the output of which is connected to the output of the device, characterized by then, in order to expand the functional capabilities and increase the accuracy of the device, the initial ordinate block, the subtraction block, the counter, dividers, the task block and parse block are entered into it, the input of which is connected to the first output of the direct coefficient calculation block, the second output of which is connected to the perimeter the input of the counter, the first and second outputs of the sign analyzer are connected to the first and second inputs of the receiving unit of the initial ordinates, the third output and the second output of the coefficient calculation unit under direct; spyucheny to the counter inputs, the third in od unit receiving initial ordinate is connected to the second output of the decoder, and the output - via a first subtractor input of the first divider. the outputs of the counter and the first task unit are connected to the inputs of the second divider, the first and second outputs of which are respectively connected to the first input of the information generation unit and through the second task unit - the second input of the first divider, the output of which is connected to the second input of the information generation unit. Sources of information taken into account in the examination 1. Aerospace Gel meters edited by KN Trofimov, M., Voyennoe ed. Ministry of Defense of the USSR, s, 188-189. 2.Olhovsky Yu. B. Compression of data X at telemetric measurements, .M., Energ, 1973, Ch. 4.4 (prototype).