SU378958A1 - ALL-UNION 1 - Google Patents

Description

one

This invention relates to methods for recording information in memory devices.

Associative optical and electron-optical recording methods are known in which a radiation source transfers information to a photosensitive material. At the same time for scanning use the rotation of photo-optical disks, the movement of films in front of the optical target and scanning the electron beam. Due to insufficient scanning accuracy, the resolution of the storage media is underused. Sequential placement of information causes time-consuming search for it (non-selection) and associative selection and, therefore, makes it difficult to quickly use this information.

The purpose of the present invention is to speed up the search for the necessary information, to eliminate double spending of the carrier when recording the same information, to remove the limitations associated with insufficient accuracy of the sweeps, to ensure the distributive properties of the memory with respect to partial damages of the storage medium.

To do this, in an optically active medium capable of dynamic delay and superposition of control actions, excite dynamic patterns, select, for example, using raster methods, characteristic points of interference patterns and photograph them on a common fixed information carrier. The selection of the moments of photographing is carried out by pulses of the recorded sequence.

When recording repeated information, it is advisable to optically active media to excite with pulses of the same sequence that is fed to the source for photographing the characteristic points of the interference maps. Photographing should be done proactively in relation to the excitation.

The described method is explained in the block diagram of the information recording apparatus shown in the figure.

The recording device contains a radiation source /, modulator 2, an optically active medium 3, in which non-interference patterns are excited, block 4 for highlighting the characteristic points in these pictures, the storage medium 5.

The proposed method contains the following operations:

a) the excitation of interfering processes in the optically active medium 3 with the help of sources of auxiliary or basic information (which are not shown in the drawing);

b) the selection of characteristic points in the interference patterns of block 4;

c) using characteristic points as a controllable movable light guide for accessing the information carrier 5;

d) selective photographing of characteristic points (control of the luminous flux of source 1 is carried out using a modulator 2 from the recorded information).

In order to use a flat information carrier, interfering vibrations excite in an optically active medium 3. Such a medium can be a flexible mirror film in which shear waves are excited and interfered, a transparent plate in which longitudinal waves interfere, causing local changes in the refractive index, or any other phenomenon, possessing the property of superposition of a significant number (50-100 or more) of elementary processes.

The number of environmental pathogens 3 determines the depth of the interference patterns, by which is meant the number of distinguishable amplitude gradations. In order to increase the resolution of the device, enhance the identification properties and to clearly highlight the characteristic points, the depth of the pictures should be as large as possible, i.e. it is necessary to strive to increase the number of environmental pathogens.

Selection of characteristic points from interference patterns can be carried out by various methods. In particular, the optically active medium 3 is enclosed in an optical compensation system of two complementary multi-element images. If the medium is not excited or only slightly excited, then the complementary images form an opaque "shutter". The appearance of characteristic points leads to a local optical mismatch of images. A movable light guide arises in the screen, with which the controlled addressing to the information carrier is carried out for recording and reproduction.

In contrast to the known recording methods, a large number of light guides appear at the same time, varying in time. Therefore, binary pulse sequences are most easily recorded, as a result of which the storage medium is not always used economically. On the other hand, the multiplicity of local mismatches leads to multiple reservation of recording of each pulse of the information sequence, and the dispersal of the points of reference over the surface of the carrier causes high reliability and "survivability of the recording with respect to partial damage to the information carrier.

The placement of information on the carrier is determined by an auxiliary information process, the information content of which should be sufficient to accommodate various information on different trajectories. In order to avoid media consumption when re-entering previously recorded information, a recordable information process is used to excite interference patterns. In this case, the sweep will be carried out along the same trajectory of characteristic points. The second entry will be superimposed on the first one and will coincide exactly with it. Thus, the media will be consumed to fix only new texts.

In order to obtain extrapolation properties in memory, the sweep and record processes must be in certain phase-time relationships, namely: photographing must be proactive in relation to the manifestation of the exciting effect of the corresponding pulse on the optically active

Wednesday Observance of these correlations allows to restore the location of characteristic points by a segment of the written text and with their help determine the value of the next character of the text. It provides

the possibility of recurrent reproduction of the entire text over any segment of it sufficient to restore the interference pattern.

Subject invention

Claims (2)

1. An associative information recording method, comprising transferring an image to a photosensitive material using a radiation source, characterized in that, in order to increase the reliability of the recording and to ensure a high speed of reading, excite in the optically active medium capable of dynamic delay and superposition of control actions, dynamic interference patterns; For example, using raster methods, the characteristic points of the interference patterns are identified and photographed on a common fixed information medium, moreover, Selection of the moments of photographing is carried out by pulses of the recorded sequence. 2. The method according to claim 1, characterized in that, in order to eliminate carrier consumption when recording repeated information, the optically active medium is excited by impulses of the same sequence that is fed to the source for photographing characteristic points of interference patterns, moreover, photographing is done proactively with respect to arousal.