RU2752751C1 - Method for obtaining digital duplicates of document in form of paper information medium or image of text document - Google Patents

Abstract

FIELD: image data processing.SUBSTANCE: invention relates to the field of analysis of image of text documents in any formats in order to identify falsifications in text information and determine the authenticity of documents. Proposed is a method for obtaining digital duplicates of a document in form of paper textual information medium or in form of an image of a text document, intended to identify falsification in the examined document. The method involves using a multifunctional video microscopic spectral complex. According to the method, the image of said document is displayed on the screen of a first monitor, alternately and/or simultaneously illuminated in a predetermined sequence, changing the angle of illumination, using said light emitters through corresponding light filters, ultraviolet emitters, white light emitters, and infrared emitters. The image of said document, illuminated in the described way, is then fixed on the first monitor by means of a digital video microscope, and digital duplicates of the document are created in form of a set of digital representations of images thereof obtained in separate areas of the spectrum and in the area of overlap of electromagnetic emission spectra.EFFECT: expanded range of technical means aimed at obtaining digital duplicates of a document.2 cl, 3 dwg

Description

The invention relates to the field of image analysis of text documents of any format in order to identify forgeries in text information and to determine the authenticity of documents and can be used in the field of forensic science for the purposes of forensic examination of documents, as well as in the field of archeology, biology, medicine, art.

From the prior art, numerous technical solutions are known related to various types of document analysis aimed at determining their authenticity using various optical means and radiation, for example:

- RU 2234734, which relates to the field of optical recognition of text from a raster image and includes the following steps - segmenting the image into regions, text fragments, character images, character recognition and corresponding analysis;

- RU 2452030, which relates to the detection of counterfeit value documents and is based on the determination of the intensity of an optical measuring signal in the visible or invisible spectral region at several analyzed points on the value document, for example, using a luminescence signal excited by ultraviolet radiation;

- US 2015279143 A1, which is based on the exposure of the document area to different wavelengths of the first and second waves of electromagnetic radiation and receiving, by the image sensor, the first and second images of the document area corresponding to the first and second radiation wavelengths, which makes it possible to determine whether whether the document is authentic;

- RU 2229744 (prototype), which consists in the fact that the examined document is illuminated with a light source, the reflected luminous flux is converted into a video signal, reproduced on the monitor and the received video signal is analyzed by comparison with the undistorted image of the document, the analyzed document is processed with the configuration of illuminators and filters at the same time, or sequentially, and the resulting image is converted into a video signal and re-visualized on the monitor, archiving the resulting image.

The disadvantage of the listed known technical solutions is their inability to obtain information about a document, which could be used for a full and effective analysis of text documents presented in any format for storing and reproducing them (PDF, DOC, TIFF, TIF, JPEG, PNG, PSD , MPEG-1, etc.), in order to identify forgeries in them. In addition, when examining documents according to known technical solutions, as a rule, complete cleaning of the analyzed document image from electromagnetic interference is not provided.

The technical problem to be solved by the invention is to ensure high reliability of the results of detecting forgeries in text documents presented in any format and without restrictions on the type of documents.

The technical result provided by the claimed invention is to increase the reliability of the results of the study of documents presented in any format.

Achievement of the specified technical result is provided by the proposed method for obtaining digital twins of a document in the form of a paper carrier of textual information or in the form of an image of a text document, designed to detect forgeries in the document under study, which includes the use of a multifunctional video microscopic spectral complex containing a first monitor, a digital video microscope with a second monitor, at least one ultraviolet emitter, at least one white light emitter and at least one infrared emitter associated with control devices, light emitters with a gamut of different colors, light filters of said emitters and a device for processing signals from a digital video microscope, image output of said document on the screen of the first monitor, which, in a predetermined sequence with a change in the angle of illumination, is alternately and / or simultaneously illuminated using the said light emitters cutting the appropriate light filters, ultraviolet emitters, white light emitters and infrared emitters, fixing by means of a digital video microscope the image of the said document illuminated in this way on the first monitor, and creating digital twins of the document in the form of a set of digital images of its images obtained in separate zones of the spectrum and in the zone superposition of spectra of electromagnetic radiation.

In addition, in the process of processing document images using a device for processing signals of the complex, digital filtering of the image of the obtained images from electromagnetic radiation emanating from the screen of the first monitor on which the said document is displayed, from individual image pixels and from ambient natural and artificial lighting is carried out.

The invention is illustrated by drawings, which show:

fig. 1 - used for the analysis of documents "CRIMINALISTIC MULTIFUNCTIONAL VIDEOMICROSCOPIC SPECTRAL COMPLEX" (hereinafter - the Spectral complex),

fig. 2 - a general scheme of document analysis when creating a CD using the Spectral complex,

in fig. 3 - an example of the obtained digital twins of a fragment of the object of study (document) with an indication of the interventions (fakes) made.

The method can be implemented using known multifunctional video microscopic spectral complexes used in forensic science to study the authenticity of documents containing the first monitor 2 (Fig. 2), digital video microscope 1 with a second monitor 11 (Fig. 1), at least one ultraviolet emitter 8 , at least one emitter of white light 9 and at least one infrared emitter 7 associated with control devices 13, light emitters with a gamut of different colors 10, light filters of said emitters 12 and a device for processing signals from a digital video microscope (not shown), for example , the spectral complex described in RU 2678413.

A document presented in any of the existing storage and playback formats (PDF, DOC, TIFF, TIF, JPEG, PNG, PSD, MPEG-1, etc.) is displayed on the screen of the first monitor of the spectral complex by any known method (scanning, etc.). while the image of text information can be monochrome (Gray), binary or color (RGB).

The image of the document on the first monitor in a predetermined sequence with a change in the angle of illumination is alternately and / or simultaneously illuminated using light emitters through appropriate light filters, ultraviolet emitters, white light emitters and infrared emitters of the spectral complex. The sequence of illumination is set depending on the complexity of the object (document), while the image on the monitor can be illuminated both by oblique beams and by direct beams with different brightness. Thus, the object of analysis is exposed to radiation 3 (Fig. 2) in the infrared, ultraviolet and visible ranges with the simultaneous use of various light filters, as well as with the superposition of the reflected radiation of different zones (ranges) of the spectrum on top of each other. Then, using a digital video microscope, the image of the document, highlighted in this way, is fixed on the first monitor, and the results are processed using a signal processing device, during which a set of digital images of the document image is obtained in various spectral ranges, which are digital twins (CD) of the investigated document.

In addition, to clean the obtained images from electromagnetic "noise" in the device for processing signals of the complex, they are additionally subjected to digital filtering, including from radiation emanating from the screen of the first monitor on which the document is displayed, from individual pixels of the image and from the surrounding natural and artificial lighting, which makes it possible to further increase the reliability of detecting forgeries - see, for example, Allaberganov A.A., Kataev M.Yu. "The content and type of the unified expert opinion", the journal "Gaps in Russian legislation", No. 1, 2020, p. 228, fig. 10.

Fragments of a CD document obtained with a digital video microscope can then be projected one by one onto the screen of a second monitor of a digital video microscope. Comparative analysis of fragments of CD images makes it possible to obtain with high accuracy information about the presence or absence of forgeries in a text document based on differences, for example, in the brightness of text elements in different spectral zones of illumination, from the original text.

An example of intrusions (forgeries) detected during the analysis of the document's CD in different spectral regions of the illumination is shown in FIG. 3, where:

4 - strokes of letter elements on the lower layer of text information, i.e. the original text, which, with appropriate highlighting, looks like light areas,

5 - strokes of lettering elements on the upper layer of the text, i.e. this is the second layer of text, applied on top of the original text and which, with appropriate illumination, looks like black areas - image editing,

6 - remnants of the text editor pixels during image editing, visible as black dot areas, i.e. these are traces of work to forge the text.

The difference between strokes 4 of the lower layer is that they are not visible without the above manipulations with the text and have specific outlines (lines of letters, numbers, etc.). Strokes 5 on the top text layer reflect the main (not hidden) text of the document, which is visible to the naked eye. The remnants of 6 pixels do not have specific outlines - they are "dirt" around the letters.

Thus, when viewing the resulting set of images of the text of the document in different spectral zones of illumination when the outlines of another text (strokes 4 on the lower layer) appear in the analyzed text, i.e. when identifying differences from each other fragments of images obtained by the CD, it can be concluded that there are interventions and modifications in the text document.

The CDs of text documents formed in the described way create an opportunity to determine with a high degree of reliability the presence of forgeries in text information and, accordingly, to establish in the future the authenticity of documents presented in any formats.

Claims (2)

1. A method for obtaining digital twins of a document in the form of a paper carrier of textual information or in the form of an image of a text document, designed to detect forgeries in a document under investigation, including the use of a multifunctional video microscopic spectral complex containing a first monitor, a digital video microscope with a second monitor, at least one ultraviolet an emitter, at least one white light emitter and at least one infrared emitter associated with control devices, light emitters with a gamut of different colors, light filters of the said emitters and a device for processing signals from a digital video microscope, displaying the image of said document on the screen of the first monitor, which, in a predetermined sequence with a change in the angle of illumination, is alternately and / or simultaneously illuminated using the said light emitters through appropriate light filters, ultraviolet emitters, emitters white light and infrared emitters; fixing by means of a digital video microscope an image of the said document illuminated in this way on the first monitor; and the creation of digital twins of the document in the form of a set of digital images of its images obtained in separate areas of the spectrum and in the area of overlapping spectra of electromagnetic radiation. 2. The method according to claim 1, characterized in that in the process of processing document images using a device for processing signals of the complex, digital filtering of the image of the obtained images from electromagnetic radiation emanating from the screen of the first monitor on which said document is displayed from individual pixels is carried out images from and from ambient natural and artificial lighting.

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