MD4260C1 - Cryptographically secure paper document, method for marking and method for identifying it - Google Patents

Abstract

The invention relates to information technologies and can be used to protect paper documents from forgery.The cryptographically secure paper document contains an identification tag, made in the form of an individual image, consisting of a plurality of perforations, randomly obtained by an electric discharge process, and a digital code. The document further contains a two-dimensional barcode, which includes information about the individual image, the digital code, the content of the document, and a digital signature.The method for marking a paper document consists in applying on it the above identification tag, its scanning with a scanning and processing storage device, compressing the scanned image, introducing into the memory of the scanning and processing device the information about the identification tag and the content of the document, signing the said information with the digital signature, conversing the signed information into a two-dimensional barcode, imprinting the obtained two-dimensional barcode on the paper document next to the identification tag.The method for identifying a paper document consists in reading the two-dimensional barcode imprinted on it with the help of a scanning and processing storage device, disclosing the digital signature using the public key, obtaining the compressed information about the identification tag, identifying the paper document by comparing the information obtained as a result of reading the two-dimensional barcode and the compressed scanned image on the paper document.

Description

The invention relates to information technologies and can be used for the protection against falsification of paper documents.

A document protected by a numerical code is known [1].

The disadvantages of this document are the lack of informational protection of the numerical code and the ease of falsifying the document.

Another document is known, which contains an individual protection image in the form of a set of perforations, obtained through a random process of electric discharge, and a numerical code. The individual image and numerical code are stored in a central database [2].

The disadvantage of this document is the need for permanent addressing to the central database.

The use of digital signature to protect virtual electronic documents is known [3].

The disadvantage of this procedure is the impossibility of protecting paper documents due to the impossibility of applying the electronic signature to a material object, namely a paper document.

A procedure for document protection without addressing the central database is known. The given procedure is based on the visual comparison of the document with its holographic image [4].

The disadvantage of this procedure is the lack of protection.

There is also a known procedure for creating the protected paper document by applying to it an individual image, obtained through a random process of electrical discharges, and a numerical code, scanning and, if necessary, entering this information into the database of data [5].

Also, a procedure is known to confirm the authenticity of the paper document, which includes scanning the individual image on the document and comparing it with the individual image, previously stored in a database [5].

The disadvantage of these procedures is the lack of protection and the need to address the database.

The problem that the invention solves consists in increasing the level of protection of the paper document and the possibility of identifying the paper document without addressing it to a database.

The cryptographically protected paper document, according to the invention, removes the disadvantages mentioned above in that it contains an identification mark, executed in the form of an individual image, formed by a totality of perforations, obtained through a random process of electrical discharges, and a numeric code. The document also contains a two-dimensional barcode, which includes information about the individual image, the numerical code, the content of the document, as well as a digital signature.

The process of marking the paper document, according to the invention, removes the disadvantages mentioned above in that it includes applying the above-mentioned identification mark on it, scanning it with a scanning device and memory processing, compressing the scanned image, entering it into the memory the device for scanning and processing information about the identification mark and the content of the document, signing said information with a digital signature, transforming the signed information into a two-dimensional barcode, printing the two-dimensional barcode obtained on the paper document alongside the identification mark.

The process of identifying the paper document, according to the invention, removes the disadvantages mentioned above in that it includes reading the two-dimensional barcode printed on it with the help of a scanning and processing device with memory, opening the digital signature with the help of the public key, obtaining the compressed information about the identification mark, the identification of the paper document by confronting the information obtained from reading the two-dimensional barcode and the scanned and compressed image of the identification mark on the paper document.

The invention is explained by the drawings in fig. 1-3, which represent:

- fig. 1, paper document;

- fig. 2, block diagram of the process of marking the paper document;

- fig. 3, block diagram of the paper document identification procedure.

In fig. 1 shows an example of the paper document 1, which, apart from the main content (text, image, signature, stamp), contains the following additional protection elements: 2 - an area on the paper document 1, designated for the identification mark; 3 - an individual image, which represents a set of perforations of arbitrary sizes and configurations, obtained through a random process of multiple electrical discharges, carried out in area 2 of document 1; 4 - an identification number, which simplifies the identification process of document 1; 5 - a two-dimensional barcode, which includes information about the individual image 3, the numerical code 4, the content of the document, as well as a digital signature of the issuer (P), the party that issues (edits, publishes) a legal document.

In fig. 2 the following elements are represented: 1 - the paper document, which is to be protected. This can be any document with arbitrary content (text, drawing, photo, etc.), for example, a financial document, certificate, identity card, passport, etc.; 6 - a device with high-voltage electrical discharges for applying an individual image 3 to the document 1; 7 - the document, which contains the individual image 3, obtained through a random process of multiple electric discharges in area 2. The individual image 3 represents a totality of perforations of different sizes and configurations. Each image 3, obtained in this way, is unique and unreproducible, the process of its creation being random, because it cannot be controlled; 8 - a scanning and processing device with memory. Any smartphone, tablet computer, personal digital assistant (PDA), produced in series and equipped with a digital camera with the necessary resolution and a set of application programs for reading and processing images can be used as such a device. It is also possible to use a personal computer with a stationary scanner connected to it. In turn, the scanning and processing device 8 contains the following elements: 8.1 - the procedure for scanning the individual image 3, which ensures obtaining the digitized image 8.2 of the image 3 and storing it in the memory of the device 8; 8.3 - the procedure of compressing the initial digitized image 8.2, as a result of which the latter, possessing a certain informational redundancy, turns into a compact numerical code X 8.4. The compression procedure 8.3 is performed to save the memory required for storing the digitized image in the device 8 and to speed up the subsequent processing procedures. The compression procedure 8.3 is performed without losing information about the parameters of a concrete image 3; 8.5 - the procedure for signing the compact numeric code X 8.4 with the digital signature of the issuer P. The digital signature certifies the authenticity of the compact numeric code X 8.4 and, therefore, the authenticity of the initial digitized image 8.2 of the individual image 3. The procedure for signing with a digital signature is described by the following mathematical expression:

S=DP(X),

where X is the compact numeric code, the authenticity of which is certified;

DP - asymmetric encryption, performed with the private key of the issuer P;

S - binary sequence 8.6, which represents the result of encrypting the compact numeric code X with the private key;

8.7 - the procedure for transforming the binary sequence 8.6, the numerical code 4 and the content of the document 1 into a barcode 9, for example, into a widely used two-dimensional QR-code. Transformation 8.7 is used to ensure the possibility of reproduction and subsequent reading of the information by conventional means. In fig. May 2 the following elements are represented: 9 - the barcode, which includes information about the binary sequence 8.6, the numerical code 4 and the content of the document 1, the authenticity of which is certified by the digital signature of the issuer P. The barcode 9 is created in the device of scanning and processing 8 and is transmitted to the printing device 10; 10 - any printing device produced in series, which can reproduce on the paper support a barcode 9, for example, the printer; 11 - the final paper document, which contains an identification mark and a printed two-dimensional barcode 5, which confirms the authenticity of the identification mark and the content, and respectively of the document.

In fig. 3 the following elements are represented: 11 - the protected paper document, 12 - a scanning and processing device with memory. Any smartphone, tablet computer, personal digital assistant (PDA), produced in series and equipped with a digital camera with the required resolution and a set of application programs for reading and processing images can be used as such a device. It is also possible to use a personal computer with a stationary scanner connected to it. In turn, the scanning and processing device 12 contains the following elements: 12.1 - the procedure for scanning the individual image 3, which ensures obtaining the digitized image 12.2 of the image 3 and storing it in the memory of the device 12; 12.3 - the procedure for compressing the initial digitized image 12.2, as a result of which the latter is transformed into a compact numerical code X* 12.4; 12.5 - scanning barcode 5 printed on document 11; 12.6 - the barcode 9, which includes information about the binary sequence 8.6, the numerical code 4 and the content of the document 1; 12.7 - the decoding procedure of the barcode 9, which ensures the obtaining of the binary sequence S 12.8, which represents the result of the encryption of the compact numerical code X with the private key of the issuer P; 12.9 - the digital signature verification procedure, described by the following mathematical expression:

X = EP (S),

where X is the compact numeric code 12.10;

EP - asymmetric decryption, carried out with the help of the public key, transmitted to the verifying party V by the issuer P;

S - the binary sequence 12.8, which represents the result of encrypting the compact numeric code X with the private key;

12.11 - the bit-by-bit comparison of the compact numerical code X*, obtained after scanning and processing the individual image 3 on document 11, and the compact numerical code X, signed with the digital signature by the issuer P and obtained after reading the barcode 5 , printed on document 11; 13 - the decision regarding the authenticity of the document, which represents a message, formed by the device 12. If the codes X* and X coincide up to the bit, then the document is considered authentic.

The process of marking the paper document is carried out by the issuer P, who wants to protect the output document against possible subsequent unauthorized editing or modification.

At the initial stage, in the area 2 of the paper document 1, which is subject to protection, the identification mark is applied by printing the numerical code 4 and executing the individual image 3 in the form of perforations, obtained by means of the device with electric discharges 6 of high voltage. The identification mark is scanned 8.1, the scanned image 8.2 is compressed 8.3, signed 8.5 with a digital signature together with the content of the document 1 by the scanning and processing device 8. The binary sequence S 8.6, which represents the result of encrypting the compact numeric code X with the private key, it is transformed 8.7 into a two-dimensional barcode 9, which includes information about the binary sequence 8.6, the numerical code 4 and the content of the document 1, the authenticity of which is certified by the digital signature of the issuer P. The barcode 9 is transmitted to the printing device 10 and is printed on the paper document.

As a result, document 11 is created, which, apart from the main content (text, drawing, photo), contains additional protection elements: identification mark, executed in the form of an individual image 3, formed by a totality of perforations, and the code numerical 4, and the printed barcode 5, which certifies the authenticity of the individual image 3 and the identification mark of this document 11.

The identification procedure of the cryptographically protected document is carried out by the verifier V.

At the initial stage, the verifier V receives a paper document 11 having, apart from the main content, an identification mark, which consists of the individual image 3 and the numerical code 4, and a two-dimensional barcode 5.

The verifier V scans 12.1 the identification mark with the scanning and processing device 12. The digitized image 12.2 obtained is compressed 12.3, as a result the latter turns into a compact numerical code X* 12.4, which is stored in the memory of the scanning and processing device 12.

Later, with the help of the device 12, the verifier V scans 12.5 and decodes 12.7 the barcode 5 on the document 11, resulting in the binary sequence S 12.8, which represents the result of encrypting the compact numeric code X with the issuer's private key P. Binary sequence S 12.8 decrypt 12.9 with the public key. As a result, with the help of the device 12, the compact numeric code X, the authenticity of which was previously certified by the issuer P, is decrypted and stored in the memory.

Codes X* and X are compared bit by bit. If they coincide, then the document is considered authentic and a decision is made regarding the authenticity of the document 13.

1. RU 2286886 C2 2006.11.10

2. Bruce Schneier. Applied cryptography. Protocols, algorithms and source texts in the language of С. Moscow, Триумф, 2002, 816 с.

3. MD 4051 C1 2010.06.30

4. RU 2399496 C2 2010.09.20

5. MD 4060 C1 2010.07.31

Claims (3)

1. Cryptographically protected paper document, which contains an identification mark, executed in the form of an individual image, consisting of a totality of perforations, obtained through a random process of electrical discharges, and a numerical code; a two-dimensional barcode, which includes information about the individual image, the numerical code, the content of the document, as well as a digital signature. 2. Process for marking the paper document, defined in claim 1, which consists in applying an identification mark on the paper document by printing the numerical code and by executing the individual image in the form of perforations, obtained by random electrical discharges; scanning the identification mark with a scanning and memory processing device; compressing the scanned image; entering into the memory of the scanning and processing device the information about the identification mark and the content of the document; signing the mentioned information with a digital signature; transforming the signed information into a two-dimensional barcode; printing the two-dimensional barcode obtained on the paper document alongside the identification mark. 3. Method for identifying the paper document, defined in claim 1, which consists in reading the two-dimensional barcode printed on the paper document, according to claim 2, using a scanning and memory processing device; opening the digital signature using the public key; obtaining the compressed information about the identification mark; identifying the paper document by comparing the information obtained from reading the two-dimensional barcode and the scanned and compressed image of the identification mark on the paper document.