RU2149456C1 - Method for checking document authenticity - Google Patents

Abstract

FIELD: checking documents, in particular, securities, lottery tickets. SUBSTANCE: method involves application of microscopic structure or image onto document surface in at least two places using given values of identification vectors, which are joined by means of secret numerical equation. Upon checking document authenticity, method involves their statistical detection. EFFECT: increased protection, simplified production of document and complexity of faking, decreased cost of document preparation. 5 cl, 7 dwg

Description

 The invention relates to methods for controlling the authenticity of documents and can be used to control the authenticity of documents, in particular stocks, lottery tickets and other securities having a limited amount when they are circulated.

 A known method of controlling the authenticity of a credit card, implemented using a device placed on the card, such as a quartz resonator, and an electronic control circuit that allows you to identify the authenticity of the card (Science and Life, 1988, N 11, p. 90).

 The disadvantage of the analogue is the complexity of the device that implements the method, the need for special equipment for the manufacture of such a card, the inability to use it for single-use papers, such as lottery tickets, due to the high cost of manufacturing the card.

 As another analog, a method for controlling the authenticity of securities, for example, money, is used, on which a alphanumeric code (number, series) and special marks, for example watermarks or phosphor marks, are applied to a security, and then a document is identified by them (Currency ... Currency ? Currency! - Minsk, 1993).

 A disadvantage of the known solution is the possibility of falsification of such marks by an attacker, therefore it is necessary to use several degrees of protection based on different methods, which makes it more expensive to produce a security.

 As a prototype, a method of protecting banknotes and securities from counterfeiting has been adopted, which consists in applying a security code to them, according to which, before applying the security code, the microstructure of the protected banknote or security is electronically scanned, the digital value of the identifier vector is determined, encrypted with an electronic signature and encode the error-correcting code (Patent of the Republic of Belarus N 1242, MKI 5 G 07 D 7/00, 1994).

 The disadvantage of the prototype is that with a sufficiently high quality of the source materials used in the manufacture of banknotes and securities, the microstructure of the entire batch of materials becomes the same and the identifier vector will be almost the same for the entire batch, so it loses its meaning as a protective element.

 The problem solved by the invention is to increase the degree of security of the document with the relative ease of manufacture and identification of the document and the complexity of its fake.

 The problem is solved in that in the known method of verifying the authenticity of a document, which consists in applying a security code, scanning the microstructure of a document surface, determining the value of a digital identifier vector, according to the invention, a microstructure or pattern is applied to the document surface in at least two places using predetermined values identifier vectors associated with a secret numerical ratio for statistical determination of them during scanning during authentication.

 The problem is also solved by the fact that the numerical ratio between the identifier vectors is selected from the range from 0.8 to 1.0.

 The problem is also solved by the fact that the microstructure or pattern is made in the form of straight inclined lines, and the slope angle and / or line length and / or line spacing are used as a vector identifier.

 The problem is also solved by the fact that the microstructure or pattern is made in the form of circles, ellipses or a circular pattern.

 The problem is also solved by the fact that, as a microrelief, artificially executed, for example, extruding or embossing holes are used, and any of the hole parameters is used as an identifier vector.

 The supply of the document with two artificially made micro-reliefs allows for identification of the document to scan and determine the microrelief indicators adopted as the identifier vector by known statistical methods. Since during the manufacture of the document they were made different by a predetermined value, a scanner should show a similar value. For a well-known series of documents, the obtained numerical ratio is checked against the one kept in secret and the true document is determined or not.

 In addition, it is impossible to manually fake such a parameter as the ratio of statistical microrelief vectors. Even the manufacture of fakes on the copying technique will necessarily lead to a distortion of statistical identifier vectors, which will subsequently be revealed during identification.

 The numerical ratio between the identifier vectors is selected from the range from 0.8 to 1.0 so that during external inspection the difference in the microrelief parameters is not striking and does not attract the attention of counterfeiters.

 The process of applying a microrelief or a micrograph with a predefined identifier vector is the process of applying a security code. By code is meant any information applied to an object in digitally, graphically, or in any other form that can be unambiguously identified. Such identification can be carried out most simply by numbers. For example, a series and a number can be clearly printed on a ticket. This is a direct code symbol. In another case, a graphic grid with a pitch of 6.285 mm can be applied to the document. This number is also a code. In the third case, a microrelief with an average statistical profile height of 28.243 microns is applied to the document. In the first case, the code is set explicitly - these are the numbers and letters that are printed on the document. In the other two, the code is implicitly set, via the drawing parameter or the microrelief parameter, or by any other known method.

The process of automatic scanning of documents and statistical processing of identifier vectors today is widespread enough. There is appropriate scanning and analyzing equipment. In particular, there are well-known algorithms for statistical processing of profile roughness (see, for example, GOST 2789-59 "Surface roughness"). The same statistical analysis algorithms can be used to determine other parameters of the security code applied to the document. These algorithms are well developed and easy to automate in conjunction with the scanning process.
The invention is illustrated by drawings. In FIG. 1 shows a general view of a lottery ticket. In FIG. 2 and 3 - sections of two microreliefs made in the form of straight inclined lines (section I and section II of Fig. 1, respectively). In FIG. 4 and 5 - sections of two microreliefs made in the form of circles. In FIG. 6 shows a section AA of the microrelief profile; FIG. 7 - section of the encoding table, where the ratio of identifier vectors is kept secret.

The lottery ticket (or security) is made on special paper 1, on which the necessary attributes of the ticket or security are printed, for example, name 2, series and number 3, the necessary graphic and advertising blocks 4 and at least two microreliefs 5 and 6. When printing ticket indicate the parameters of the microrelief, for example, the angle α ₁ , α ₂ , step t ₁ , t ₂ , height l ₁ , l ₂ for the microrelief in the form of straight lines or the diameter d ₁ , d ₂ and step t ₁ , t ₂ for the microrelief made in the form of circles.

 The picture can be printed not only in the form of straight lines, but also in the form of intersecting lines. In this case, the area of the elementary parallelogram, the ratio of its diagonals, or any other parameter can be selected as the identifier vector.

 The exact same microrelief can be not only printed in the form of a pattern, but can also be extruded or embossed in the form of holes or printed with lines visible in certain conditions, for example under ultraviolet light.

 The examples presented in the present description are used as an illustration, and not limitation, and the present invention is limited only by the claims presented below.

 Thus, the presented data confirms the possibility of industrial use of the document authenticity control method when achieving the objectives - reducing the cost of preparing the document and increasing the effectiveness of protecting the document from forgery.

Claims (5)

 1. The method of verifying the authenticity of a document, which consists in applying a security code, scanning the microstructure of the document surface, determining the value of the digital identifier vector, characterized in that the microstructure or pattern is applied to the document surface in at least two places using predefined values of the identifier vectors connected by a secret numerical ratio, for statistical determination of them during scanning during authentication.  2. The method according to claim 1, characterized in that the numerical ratio between the identifier vectors is selected from the range of 0.8 - 1.0.  3. The method according to claim 1 or 2, characterized in that the microstructure or pattern is made in the form of straight inclined lines, and the slope angle and / or the length of the lines and / or the pitch of the lines are used as an identifier vector.  4. The method according to claim 1 or 2, characterized in that the microstructure or pattern is made in the form of circles, ellipses or a circular pattern.  5. The method according to claim 1 or 2, characterized in that as a microrelief use artificially executed, for example, extruding or embossing holes, and as a vector identifier use any of the parameters of the holes.

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