SU1665247A1 - Test target - Google Patents

Abstract

The invention relates to the measurement of the modulation transfer function and its orientational anisotropy of the electron-optical and / or visual system. The aim of the invention is to improve the measurement accuracy. The test object contains a matrix of elements in the form of sinusoidal gratings with a contrast smoothly varying from the maximum in the center to the minimum at the periphery, and the average density of the grating is equal to the density of the matrix. The gratings of each matrix are made with variable contrast in the range of 0.04–0.90 and variable orientation in the range of 0–180 angles. grad., and from the matrix to the matrix, the spatial frequency of the gratings varies in the range of 0.01 - 60 cycles per angular degree. 2 Il.

Description

The invention relates to the measurement of the modulation transfer function and its orientational anisotropy of the electron-optical and / or visual system, makes it possible to evaluate the quality of these systems and is intended for use in cinematography to study both the individual link of the cinematographic and photographic systems, and the system as a whole, in television for the study of various television systems for displaying video information, in ergonomics, medicine, in particular, for the study of the human visual system.

The aim of the invention is to improve the measurement accuracy.

FIG. 1 shows the matrix element of the test object, which is a sinusoidal lattice modulated according to the Gauss law, for which the maximum

the contrast in the center gradually decreases towards the periphery, and the average density is equal to the density of the matrix; in fig. 2 - a test object matrix containing lattices of the same spatial frequency: a) 10 cycle / angle, variable contrast (K 0.04–0.90), and variable orientation in the range of 0–180 angle grad.

The test object contains n matrices, each of which consists of sinusoidal grids (see Fig. 1), the average density of which coincides with the density of the matrix with no visible borders.

Each matrix (see Fig. 2) consists of. sinusoidal gratings (see Fig. 1) of different contrast and different orientation. The grids in each array are arranged so that their contrast varies from 0.04-0.90. The orientation of the lattices in the matrix column varies in the range of 0-180 angular degrees. The matrices are different from one another in spatial often-O

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the lattices in the range of 0.01- 60 cycle / angle.

The modulation transfer function of the system under study is measured by sequentially presenting the test object matrices, and the number of grids in the matrix and the number of M3-eits (n) can vary depending on the tasks of the probe and system.

The test object is used to measure the orientational (meridional) anisotropy of the transfer function of the system under investigation by presenting the gel to each of the matrices of the Tesg object either directly or through the electron-optical system under study. In this case, stable detection of gratings of different orientations is added. maximum contrast in the matrix, the Observer must fix the number of lattices of each orientation in the matrix presented to him, which he is in in the orientation, in which the observer sees A large number of elements are the meridian of astigmatism of the system under study. According to the data obtained, correction is introduced by using cylindrical lenses of the appropriate orientation.

The matrices of the test object are drawn with a photo-method on transparent and non-transparent media, as well as by offset printing on printing paper. In this connection, a test object can be used both in transmitted and reflected light. For an examination of, for example, various cinematographic systems, a test object can be used as a test film, each plan of which of a certain length should contain an image of one of n matrices, i.e. the plan from the plan of the test film must differ from the same parameters as the matrices from one another.

Claims (1)

The invention The test object containing a matrix of elements in the form of sinusoidal gratings, the average density level of which is equal to the density of the matrix, characterized in that, in order to increase the accuracy, additional matrices are introduced into it, the contrast of each of the grids forming the matrix smoothly changes from its maximum value in the center to the minimum periphery, with the gratings of each matrix made with a variable contrast in the range of 0.04–0.90 and a variable orientation in the range of 0–180 angular degrees, and the spatial frequency of the gratings in the range of 0.01–60 varies from matrix to matrixiklov on angular degree. Fig 2