RU1831670C - Method of representation of amplitude-and-frequency spectrum of vibroacoustic signal - Google Patents

Abstract

Usage: a method for displaying the amplitude-frequency spectrum of a vibro-acoustic signal relates to the field of vibration testing of various objects. SUMMARY OF THE INVENTION: The amplitude-frequency spectrum of a vibro-acoustic signal is represented on a plane in a two-dimensional space defined by the coordinate axes of the time and frequency of the studied signal, in separate sections of different colors, where each color defines a given range of amplitude values of the studied vibro-acoustic signal. The degree of discretization of the amplitude range and the choice of color scheme are determined by the processor-analyzer depending on the conditions of the task to analyze the vibro-acoustic state of the test object. 2 ill.

Description

The invention relates to the field of vibration testing of various objects and can be used for vibro-acoustic diagnostics of the latter during field tests.

The purpose of the invention is to increase the clarity and reduce the time needed to analyze processing data with the results of the amplitude-frequency spectrum.

The goal is achieved by the implementation of the claimed method of graphical representation of the amplitude-frequency spectrum of the vibro-acoustic signal, which increases the reliability of the output analyzed materials, because It is generally recognized that the human brain is mainly focused on visual perception and people get information when viewing graphic images faster than when reading numbers and texts.

The essence of the invention lies in the fact that the amplitude-frequency spectrum of the vibro-acoustic signal is represented on a plane in two-dimensional space, defined by the coordinate axes, the time and frequency of the studied signal, in separate sections of different colors, where each color defines a given range of amplitude values of the studied vibro-acoustic signal . The degree of discretization of the amplitude range and the choice of color scheme are determined by the processor-analyzer depending on the conditions of the task to analyze and evaluate the vibro-acoustic state of the test object.

The proposed method is illustrated in FIGS. 1 and 2. Depending on the initial conditions specified by the analyzer, for a certain point in time h, 12tt, ..., tn, a fast Fourier transform (FFT) of the telemetric signal corresponding to the selected time point is calculated . Each level of the amplitude scale of the measured signal is represented by a specific color. The degree of color gradation is set by the processor-analyzer depending on the tasks being solved. This makes it possible to obtain on the terminal screen the working plane of the amplitude-frequency spectrum in time and frequency axes of the signal being studied, represented by individual sections of different colors, where the color determines the signal amplitude level.

The proposed method is implemented in an IBM PC / AT type personal computer environment.

As a result of the application of the invention, in comparison with the known methods, a primary effect is achieved consisting in increasing the reliability and reducing the time for analyzing processing data with the results of the amplitude-frequency spectrum by presenting the amplitude scale of the vibroacoustic signal through a set of color levels, where each

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color has a strictly defined amplitude range value.

Claims (1)

From the use of the invention, a secondary effect should also be expected, consisting in reducing the time for design development of promising models of equipment and material costs for conducting field tests of the latter. SUMMARY OF THE INVENTION A method for displaying the amplitude-frequency spectrum of a vibro-acoustic signal, which consists in a graphical representation of a signal on a plane, in which the coordinate of the frequency of the signal under study is used as one of the coordinates, characterized in that, in order to increase accuracy, the signal is presented on a plane as separate sections of different colors, each of which corresponds to a certain range of signal amplitude, while the time coordinate is used as the second coordinate. sec ) (rig. / t VI A B (sec.)