UA68935A - Method for distant identification of an object - Google Patents

Abstract

Method for distant identification of an object includes the step of its visual recognition through differentiation of at least one feature of the optically active elements installed on the object. As optically active element one uses polarization system with its one component - polarizer - placed on the object of identification and the other one - analyzer - installed in front of the eye of the observer.

Description

Description of the invention

The method concerns information technologies, in particular, engineering and technical security systems, and can be used for remote determination of compliance of the controlled object with the identifier.

There is a known method of remote identification of an object, which includes its visual recognition by differentiating at least one feature of the optically active elements installed on the object |1). According to a known method, object identification is carried out by visualizing the luminescent glow of fluorochromic signs previously applied to the object. 70 The disadvantage of the known method is insufficient manufacturability, which results from the need to minimize the distance between optically active elements, namely the light flux of a certain spectral range and the object of protection, on the one hand, and the observer-identifier - on the other. In addition, an important drawback is the lack of effectiveness of the known method due to the impossibility of identifying the object of protection hidden from an outside observer. 19 The invention is based on the task of improving the known method, in which by using optically active elements, the principle of operation of which is based on a more adequate physical basis than according to the prototype method, aimed at increasing the distinguishing ability of optically active elements, to achieve an increase in the manufacturability and efficiency of remote recognition of the object of protection.

The task is solved by the fact that in the known method of remote identification of an object, which includes the stage of its visual recognition by differentiating at least one feature of optically active elements installed on the object, according to the invention, a polarization system is used as an optically active element, one component of which is the polarizer is placed on the object of identification, and the second - the analyzer is installed in front of the observer's visual organ, and the planes of polarization of the light of the polarizer and the analyzer are set in a mutually intersecting position, and the angle between the horizontal plane - on the one hand, and each of the polarization planes, namely the analyzer and polarizer - on the other hand, set "in accordance with the specific tasks of the functioning of the security system.

List of figures.

Fig.1. Two samples of the identification card of a conditionally invited person, the identification of which was made without the use of an analyzer. at

Fig2. Two samples of the identification card of a conditionally invited person, the identification of which was made with the use of an analyzer.

The method is carried out as follows. Me.

On the object of visual recognition, taking into account its position in space during the implementation of security measures, an optically active element with the properties of a polarizer, made, for example, in the form of a special polymer film or glass on a specially selected sub-base, which performs the function of ee, light-optical background, is installed . At the same time, the angle of the plane of light polarization relative to the horizontal is determined and set according to specific conditions and protection tasks. At the same time, the orientation of the second optically active element - the analyzer, made of a similar material - a special polymer film or glass, for example, in the form of identification glasses placed in front of the observer's eyes, is carried out. At the same time, from 50 the plane of polarization of the light of the analyzer is oriented at a certain angle to the plane of polarization of the light of the polarizer, until the optimal recognition optical effect is achieved.

From" During the visual inspection of the object of protection from a certain distance, at least ten meters, attention is paid to the presence and peculiarities of the specified light-optical (polarization) effect: in the case of its absence or light-optical inconsistency, a conclusion is drawn about the falsification or replacement of the object of protection .

Example b As an optically active element with the properties of a polarizer, a piece of polymer film was used

Ge | with a liquid crystal layer, which covered a certain area of the base of the person's identification card: two circles on the inner edge of the photo of the conditionally invited person. At the same time (for example), an identity card similar in shape, but falsified by the placement of optically active elements, was produced. With so 20 ordinary observation, that is, without the use of an analyzer, it is impossible to detect falsification: identification cards are recognized as identical (Fig. 1). On the contrary, when examining the taken objects with the help of the analyzer, their light-optical differences are clearly revealed (Fig. 2) in the form of differently colored circles, in particular, green and brown, on the basis of which reasoned conclusions are made regarding the identity of the objects presented for analysis objects 25 Due to the remoteness of the optically active elements, namely the polarizer, which is installed on the object in. protection - on the one hand, and the analyzer used by the observer-identifier, for example, as ordinary glasses, two main advantages of the proposed method over the known prototype method become obvious.

This is, first of all, the possibility of remote monitoring of the object of protection, as well as the possibility of conducting it covertly, that is, imperceptibly for others. 60 Therefore, the proposed method provides a higher level of manufacturability and efficiency of identification of the object of protection than according to the prototype method, and can be applied to perform a wide range of tasks in the system of protection measures.

Sources of information that should be taken into account: 1. Yustak K. Banknotes and their falsification. - (Translated from Polish). Lviv: Kredit Bank, Ukraine, bo 2003. - P.1-8.

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Claims (2)

Formula of the invention, sl 1. The method of remote identification of an object, which includes the stage of its visual recognition by differentiating at least one feature of the optically active elements installed on the object, which differs in that a polarization system is used as an optically active element, one component of which is 2о the polarizer - is placed on the object of identification, and the second - the analyzer - is installed in front of the observer's organ of vision. 2. The method according to claim 17, which differs in that the planes of polarization of the light of the polarizer and the analyzer are set in a mutually intersecting position, and the angle between the horizontal plane - on the one hand, and each of the polarization planes, namely the analyzer and the polarizer - on the other, is set accordingly up to 60 specific tasks of the functioning of the security system. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2004, M 8, 15.08.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. b5