SU693299A1 - Automatic device for equalizing frequency spectrum of seismic signals - Google Patents

Description

one

The invention relates to the field of seismic prospecting and can be used in the processing of seismic data using the self-tuning inverse filtering algorithm.

A device is known for implementing an inverse filtering algorithm for seismic records I.

In this device, a seismic signal passes through an amplifier covered by a negative feedback circuit. A frequency filter is included in the negative feedback circuit, the frequency response of which must coincide with that of the geological affinity and recording equipment. To perform inverse filtering, the filtering properties of the medium and recording equipment are determined, then these characteristics are set on the filter. Due to the negative feedback, in which the filter is connected, reverse filtering, i.e., the equalization of the frequency spectrum of the seismic signals, is provided.

The disadvantage of this device is the need for the occasional determination of the frequency characteristics of the medium and equipment, which is not always possible and takes a long time.

The closest technical rendition is the device for implementing the self-adjusting inverse filtering algorithm 2. The advantage of this device is to provide inverse filtering that is time-varying, i.e., self-adjusting inverse filtering, which eliminates the need to preliminarily determine the frequency characteristics of the medium and equipment.

This device works as follows.

Claims (2)

The segmic signal arrives at the parallel inputs of the narrowband fi.t., the selected frequency components from the outputs of the narrow-band filters go at the inputs of the amplitude limiters, where the equalization of the frequency components occurs but the amplitudes equalized by the frequency | 1c, the components are then summed by the adder, and from its output, the sum signal goes through a low-pass filter to the recorder for recording. The disadvantage of this device is the limitation in the frequency range of the processed seismic signals, since the selected frequency components e, (t), ei. (T) ... e (t) at the outputs of narrowband filters are almost sinusoidal oscillations with different frequencies d |,. (juU and different amplitudes A (, AZ., AZ ... A (1,) and mathematically expressed e, (t) A (sinu) f ti e2. (t) Aisinw2. (t), ew . (t; - AH.sinw ".t. After amplitude limitation of these frequency components, we obtain a set of rectangular oscillations (or close to them) enriched with high-frequency components. put on EJ (t) A (sinoji t + 4-sin3 d, t -j-sinSioi t ..., Ej (t) (-J-sin3u) it-fJ-sin5ii) it + ..., E (t ) rux.t + 4sin3 ' nt + in sinSu t + .... Analyzing the results obtained after amplitude limiting, it can be concluded that the conversion of the selected sinusoidal oscillations into rectangular oscillations is accompanied by the appearance of higher-frequency components with frequencies 3fi, 3f2 ... 3fn, 5ft, 5Г1 ... 5Gm.etc. with the corresponding amplitudes -j-, -, etc. These b1-frequency components must be eliminated, as, for example, this is done in the illustrated device using a low-pass filter with a cut-off frequency fcp included after the adder. In this case, the cutoff frequency must satisfy the condition (. As can be seen, this condition imposes certain restrictions, for example, if the original signal contains frequency components from 20 Hz and more, then the high frequency itself must exceed 60 Hz. This disadvantage reduces the seismic processing efficiency information by limiting the frequency spectrum of the seismic signals. The purpose of the present invention is to expand the frequency range of the processed seismic signals. A band device introduced bandpass filters whose inputs are connected to the outputs of the amplitude limiters and whose outputs are connected to the input of the adder. The drawing shows the block diagram of the device. The device contains a seismic signal source 1 connected to narrowband filters 2, 3, 4, 5 for selecting frequency components of the signal. The outputs of these filters are connected to amplitude limiters 6, 7, 8, 9 to limit the amplitudes of the selected frequency components in the same level; amplitude limiters are connected to the inputs of bandpass filters 10, II, 12, 13. The outputs of the bandpass filters through the adder 14 are connected to the recorder 15. The number of narrowband filters, amplitude limiters and bandpass filters corresponds to the number of frequency components on which the signal is spread. The proposed device operates as follows. The processed signal from signal source 1 is fed to the parallel inputs of narrowband filters 2, 3, 4, 5. The number of these filters is determined by the frequency range of the seismic signals and the selected frequency resolution of the decomposition. The selected frequency components with different amplitudes are fed to amplitude limiters 6, 7, 8, 9, where the amplitudes of the frequency components are limited to the same level. The amplitude-equalized frequency components are fed to the band-pass filters 10, 11, 12, 13, where high-frequency spectral components are filtered due to the amplitude-limiting procedure. After the bandpass filters, the signals are fed to the adder 14, and the summed frequency components are fed to the recorder 15. Thus, the restrictions are eliminated, as high-frequency components are filtered out by the band-pass filters, which are generated due to amplitude limits. Formula of the invention Automatic leveling device frequency spectrum of seismic signals containing a series-connected source of seismic signals, narrow-band filters, amplitude limiters, sum P and recorder, characterized in that, in order to expand the frequency range of the processed signals, band-pass filters are entered into it, the inputs of which are connected to the outputs of amplitude limiters, and their outputs are connected to the input of the adder. Sources of information taken into account in the examination 1. US patent number 3295098, cl. 340-15,5, published. 1966. 2. USSR author's certificate number 557338, cl. G 01 V 1/28, pub. 1974, (prototype).