RU2115169C1 - Method for bank note genuineness verification - Google Patents

Abstract

FIELD: identification of genuine securities. SUBSTANCE: method involves illumination of bank note being verified by ultraviolet radiation source, reception of reflected light flux by photodetector, and measurement of its brightness level. Light flux reflected from bank note being verified is received by photodetector and its brightness level is measured in ultraviolet region of spectrum corresponding to spectrum of ultraviolet radiation source; bank note is verified for genuineness by results of comparison of measured brightness levels of light fluxes reflect 4d from bank note being verified and from reference one in ultraviolet region of spectrum. EFFECT: improved reliability of distinguishing genuine bonds or other securities from spurious ones.

Description

 The invention relates to a technique for recognizing the authenticity of banknotes or other securities printed on special paper, and can be used in the development and manufacture of devices that can determine the authenticity of banknotes or other securities by identifying the paper on which they are printed with special paper, which printed a model banknote or other model security.

 A known apparatus for checking the authenticity of documents printed with ink containing phosphors excited by infrared radiation. The energy emitted by excited phosphors in the visible range is sensed by the corresponding sensors of this apparatus and converted into its corresponding electrical signals for further processing and analysis using the electrical circuit [1].

 A device for recognizing the authenticity of banknotes is also known, in which a known method is implemented, in which the paper on which the controlled banknote is printed is irradiated with an ultraviolet radiation source and the re-emitted energy in the visible range of light waves induced in the material of this paper is detected using a photo sensor [2].

 In addition, a device for recognizing and authenticating banknotes is known, the operation of which is based on the known method by which the paper on which the controlled banknote is printed is illuminated with a visible light source and an ultraviolet radiation source. The radiation transmitted through the controlled banknote in the visible range of light waves is perceived by a line of photosensors located across the banknote movement, as well as by additional photosensors, each of which has different color filters. To register the possible fluorescence of the constituent parts of the paper on which the controlled banknote is printed, under the influence of ultraviolet radiation there is an additional sensitive photosensor with an ultraviolet absorption filter [3].

 There is also known a method and apparatus for optical recognition of documents, during which a controlled document is illuminated on one side by two illuminators of visible light directed at an angle to its surface and to each other and one source of ultraviolet radiation. The photosensor is mounted above the lighting point. This known device allows you to control documents in which the drawing printed on paper contains colored fibers, the dye of which fluoresces in UV light. When a controlled document is illuminated with a UV radiation source, fluorescent dyes built into the corresponding region of the image convert UV radiation into longer-wavelength visible light detected by the photosensor without the use of additional filters, since this photosensor is practically insensitive to UV radiation. Thus, the known method and device provide the ability to establish the presence of fluorescent dyes in a controlled document [4].

 The above known methods and control devices allow in most cases with a certain reliability to verify the authenticity of banknotes and securities, but they have several disadvantages. In particular, the reliability of the control results with their help is significantly reduced due to false positives (malfunctions) of the executive stages of the electrical circuit, since it reacts equally to both genuine banknotes and their super-fakes (fake banknotes made at a high professional level) , since the pattern in them largely coincides and is made using in both cases a paint containing a phosphor, excited to the same extent by a UV radiation source. The use for authenticity control of illuminators that emit light energy in the visible range gives a similar result, since superfakes are performed on paper, which in appearance in the visible range of light waves does not differ from special paper used to print genuine banknotes or other securities.

 This circumstance is objectively caused by the fact that, on the one hand, there is a continuous process of improving the elements for protecting banknotes from counterfeiting, and on the other hand, the level of fulfillment of these counterfeits (counterfeit banknotes) is also increasing, and this requires the use of more advanced means of controlling them, allowing reliable distinguishing genuine banknote from counterfeit, including from a super fake.

 The authors conducted an analysis of well-known technical solutions and additional studies of the optical properties of special paper on which genuine banknotes are printed, as well as the paper on which their superfakes are printed, allowed the following conclusions.

 1. The optical properties of paper (reflection, transmittance, absorption, etc.) on which superfakes are printed are very similar to those of special paper on which genuine banknotes are printed, if these properties are controlled by known methods in visible light, i.e. . if illumination of a controlled banknote and reception of a reflected or passing through it light stream will be carried out by a photosensor in visible light.

2. All known methods and devices implementing them for determining the authenticity of a banknote or other security, the principle of which is based on determining the optical properties of the paper on which they are printed, can be divided into two main groups, namely:
methods in which the controlled document is illuminated by a source of visible light and a light stream is reflected or transmitted through it by the photosensor in the same visible light;
methods in which the controlled document is illuminated by a source of ultraviolet or infrared radiation, and the photosensor is re-emitted by excited phosphors in the ink using which the document is printed, the light flux in visible light.

 The proposed new method for determining the authenticity of banknotes is aimed at solving the following problem: increasing the reliability of the results of the control of the authenticity of banknotes and other securities.

 To achieve the above technical result, a new method is claimed for determining the authenticity of a banknote or other security, characterized by the following set of essential features.

Known essential features of the claimed method:
illumination by a source of ultraviolet radiation of a controlled banknote;
receiving a light sensor reflected from a controlled banknote by a light sensor and measuring its brightness level.

Distinctive essential features of the claimed method:
receiving a light sensor reflected from the controlled banknote by a light sensor and measuring its brightness level is carried out in the ultraviolet region of the spectrum corresponding to the spectrum of the ultraviolet radiation source;
the authenticity of the controlled banknote is judged by comparing the measured brightness levels of the reflected light fluxes from the controlled and model banknotes in the ultraviolet region of the spectrum.

 The above combination of essential features is also supported by the results of measurements of the optical properties of the paper material on which superfakes are printed, and of special paper on which genuine banknotes are printed in the ultraviolet region of the spectrum corresponding to the spectrum of the ultraviolet radiation source, which made it possible to reveal a significant difference in the numerical values of reflectance, absorption, etc., characterizing the optical properties of the used papers. The technical result obtained as a result of the experiments made it possible to significantly increase the reliability of the results of determining the authenticity of a controlled banknote, since it allows one to more successfully identify counterfeit banknotes, including super-fakes, the identification of which was a difficult technical task.

 When implementing the claimed method of determining the authenticity of a controlled banknote is illuminated by rays emanating from a source of ultraviolet radiation. The rays emitted by the UV source, having reached the surface of the controlled banknote, will be partially absorbed by the material of its paper, and partially reflected from its surface and will go to the input of the photosensor, from the output of which a signal is directly proportional to the brightness level of the rays reflected from the surface of this banknote. The signal obtained from the output of the photosensor is then compared with a similar signal obtained as a result of illumination by the rays of the UV source of a model banknote. If the signals received by the photosensors at the input of the comparison device are equal or close in value, then the controlled banknote will be qualified as genuine, but if on the contrary, the controlled banknote will be qualified as false. Since the optical properties of special paper on which genuine banknotes are printed and paper on which superfakes are usually printed, when controlling them with the help of ultraviolet rays reflected from the controlled banknote, they significantly differ from each other, the reliability of determining their authenticity will also be significantly higher than in known methods. Therefore, the claimed method is highly effective in determining the authenticity of banknotes and allows you to successfully identify even super-fakes.

 The claimed method for recognizing the authenticity of banknotes can be implemented in mass-produced devices of a similar purpose in the production environment using standard equipment and modern materials. According to the results of the work carried out by the applicant, several prototypes of a product that fully implements the claimed method for recognizing banknote authenticity were manufactured and tested with positive results.

Claims (1)

 A method for determining the authenticity of a banknote, including illumination of a controlled banknote with an ultraviolet source, as well as receiving a light sensor reflected from it by a photosensor and measuring its brightness level, characterized in that the light sensor receiving a light stream reflected from a controlled banknote and measuring its brightness level is carried out in ultraviolet spectral region corresponding to the spectrum of the source of ultraviolet radiation, and the authenticity of the controlled banknote is judged by the results of average neniya measured intensity levels of reflected light from the monitored flows and exemplary banknotes in the ultraviolet region of the spectrum.