SU1247774A1 - Device for rejecting random signals which are recorded on magnetic medium - Google Patents

Abstract

The invention relates to the field of spectral analysis of telemetry and computing. The purpose of the invention is to increase the reliability of the spectral analysis of random signals recorded on a magnetic carrier. The device, which implements the method, contains a playback unit 1, a spectrum analyzer 2, a recording unit 3, a control unit 4 and a comparison unit 5. At all time intervals of the spectral analysis of electrical signals of the realizations of the process under study, control signals with a wide range of frequencies are under-. Swallow spectral analysis. Spectral analysis of control signals is carried out in the frequency range of the process under investigation at all points of the scale. The results of this analysis are compared with the characteristics of the spectrograms of the undistorted control signals. 1To comparison results exclude distorted information from the recorded materials of the analysis of the process under study. The method allows to reduce the number of different types of control signals necessary to verify the obtained results of spectral analysis for reliability. 2 pe. i (/ to Oiik sl

Description

This invention relates to spectral analysis of telemetry and computing.

The aim of the invention is to increase the reliability of the spectral analysis of random signals recorded on a magnetic carrier.

. This is achieved by the fact that in all time intervals of the spectral analysis of electrical signals of the implementations of the process under investigation, control signals are subjected to spectral analysis, which are carried out in the frequency range of the process under investigation at all points of the frequency scale, the results of this analysis are compared with the spectra of undistorted control signals according to the results of exclude from the recorded materials of the analysis of the process under study distorted information,

In order to simplify the process of rejecting random signals by reducing the number of different types of control signals necessary to verify the results of the recording for reliability, use monitored signals with a wide frequency spectrum.

Fig. 1 shows a block diagram of a device for carrying out the proposed method; Fig. 2 shows diagrams explaining the operation of the device.

The device contains a sequence of 35 depending on which the connected playback unit 1, the spectrum analyzer 2 and the recording unit 3, the control unit 4, the comparison unit 5, the first input of which is connected to the spectrum analyzer 2, and the first output to the recording unit 3, the unit 6 memory connected by input and output with a second output and a second input, respectively, of unit 5 comparison. The control unit 4 is connected to all the other units (The connections of unit 4 are not shown),

The device that implements this method works as follows.

The device is switched on and controlled using the control unit 4. The electrical signals recorded on the magnetic carrier (FIG. 2, a) of the random process implementations and the control signals (FIG. 2.6) are reproduced and amplified by the playback unit 1, the output signals from the playback unit 1 of the random procession and the control signals at all time intervals The spectral analysis of the electrical signals of the process under study is analyzed by the spectrum analyzer 2. The results of the spectral analysis of random processes are recorded by the 3. recording unit, and the results of the spectral

The control signal analysis in block 5 is compared with the spectrogram characteristics of previously recorded undistorted control signals. Data on the characteristics of the undistorted control signals are accumulated and stored in memory block 6. According to the results of the comparison, in block 5 of the comparison, a signal is generated that enters the registration block 3, where it eliminates the distorted information from the recorded analysis materials. If the level of the spectrogram of the pilot signal deviates from the spectral level of S., the undistorted control signal (Fig. 2) , c) by an amount exceeding the tolerance S, from the output of the comparison unit 5, the recording unit 3 receives a signal which, on the spectrogram C, - (FIG. 2, d) of the process under study, tint the frequencies with the distorted information. Data on the values of S tshok are stored in block 6, Setting the mode of the device, in

The recording in block 6, and the selection of specific data on the characteristics of the spectrograms necessary for comparison with the results of the spectral analysis of the control signals, is made using the control unit 4.

The proposed method allows to increase the reliability of spectral analysis, random processes, as it is characterized by controlling the level of distortion of the random signal under study at all analyzed points in the frequency range and at all time intervals of the spectral analysis of electrical signals of the process under study and excluding the distorted signal from the recorded spectral analysis of the random signal. various information hindrances depending on the control results.

The use of control signals with a wide range of frequencies

It saves spectral analysis of random signals, since it reduces the number of different types of control signals needed to verify the obtained results of spectral analysis for reliability.

Claims (1)

Invention Formula The method of rejecting random signals recorded on a magnetic medium, which consists in recording on the magnetic medium electrical signals the realizations of the random process and the control signal, reproducing, spectral analysis and recording the results in the form of fi-i a-jfa spectrograms, monitoring the permissible level of noise distortion of the random signals under investigation, characterized in that, in order to increase the reliability of the spectral analysis of random signals at all time intervals of the analysis, a spectral analysis of the control signal with a wide frequency spectrum is performed over the entire frequency range of the random signal under study, the results of the analysis compared with the characteristics of the spectrogram of the undistorted control signal, based on the results of the comparison, the distorted sections of the sample are rejected. Isi on a magnetic carrier of a random signal under investigation. ti - tl + f Lld // C MHvWW eight Jlkl i 5ut. Tint unreliable information FIG. 2 Compiled by V.Velichkin Editor N.Shvydka Tekhred V.Kadar Proofreader G. Reshetnik Order 4119/44 Circulation 728 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4