RU2684513C1 - Method for prove reliability of evidence and device for implementation thereof, method of this device operation - Google Patents

Abstract

FIELD: calculating; counting.SUBSTANCE: invention relates to information security means. Video filming of an object with a user-defined recording interval of a video file with modulated lighting, subsequent calculation of the hash function of that video file, as well as a hash video recording code and storage of data in the blockchain network are performed in the device. In the reliability test, the light source modulation code is analyzed and selected, wherein the obtained modulation code is compared with the modulation code recorded in the blockchain data units and when matching the found modulation code and the calculated hash-video with data recorded in the blockchain data units, it is verified that the event recorded on the video, occurred in time interval between time stamps of recording of modulation code and hash-video record in blockchain units of data.EFFECT: technical result consists in improvement of reliability of recorded events using video files.3 cl, 1 dwg

Description

Technical field

The invention relates to computing, and in particular to means of ensuring information security.

State of the art

A known solution to the patent of the Russian Federation for the invention No. 2416169, IPC H04L 9/32, "METHOD OF AUTHENTICATION OF THE OBJECT". This method provides an increase in cryptographic strength by the possibility of changing confidential information when it is compromised and expanding functionality by implementing an object authentication algorithm in a group of homogeneous objects according to individual characteristics inherent only to this object.

Known US patent for invention No. 5933502, IPC G06F 1/00; G06K 9/20; H04N 7/16, “Visual Authentication Method”. The method includes generating at least one pseudo-randomly modulated light output of the image of the object during at least a part of the pseudo-random modulated light output to create a video stream, and then it is determined whether the light stream affects the video signal stream. In addition, the method comprises the step of generating a first light output, and after the step of generating the first light output, determining a delay between generating the first light output and receiving at least one artifact of the first light output in the video stream. The generation of a pseudo-randomly modulated luminous flux includes the generation of a sequence of light pulses, the light pulses being separated by pseudo-random sums of time. Generating a pseudo-randomly modulated light output includes generating a sequence of light pulses, the light pulses having a pseudo-random amplitude. Visual authentication includes a pseudo-random change in the light output of the display device, an image of the object during at least part of the pseudo-random change in the light flux to create a video stream; after which it is determined whether the light flux affects the video signal stream. A pseudo-random change in the luminous flux includes: generating one or more pseudo-random time points at which the light output can be changed; and also maintain the change in light power for a given period of time. A pseudo-random change in luminous flux includes: generating one or more pseudo-random points in time to change the luminous flux; and also supports changing light power for pseudo-random time. The solution of the invention includes receiving a request for access to a secure resource; if it is determined that the video stream is affected, and then access to the requested protected resource is granted; and also if it is determined that the video stream has not been affected, and then denied access to the requested protected resource. According to the invention, an object is an object to be authenticated. In this case, the object is a requesting entry to a protected resource. The method in which the object is the pupil requesting entry to a secure resource. The method of visual authentication includes applying, over a period of time, a pseudo-random time-varying signal modulating the output power of the light device; visualizing an object for at least a portion of a time period; as well as determining the effect on the video stream. In the method, an object is a computer user who requested access to a computer resource. A device for implementing the method is a computer display device. In the method, a modulation signal directs a light device to create pulsed changes in light radiation. The authentication method includes a sensor operating in the visible part of the electromagnetic spectrum, or working in the infrared visible part of the electromagnetic spectrum. A request is made for the input stream of image data for the object to be authenticated, the generation of pseudo-random time-varying infrared radiation, it is determined whether the input image data stream includes artifacts of infrared reflections correlated in time with at least part of the generated pseudo-random time-varying infrared radiation . In the method, generating a pseudo-random time-varying infrared radiation includes generating a pseudo-random sequence of infrared pulses of substantially fixed length. Or generating infrared pseudo-random time-varying radiation includes generating a sequence of infrared pulses having pseudo-randomly generated pulse widths.

Closest to the claimed solution is the application for a patent in the USA No. 201321219480, IPC G06F 21/32, “Method of authentication of an online user”. Methods, systems and computer software products for online user authentication. Authentication involves sending the code from the server to a user device equipped with a light source and a camera capable of capturing video images from an online user. The user device receives the code, modulates the light source in accordance with the code, and captures the user's video, while the light source is modulated in accordance with the code. The captured video images of the online user are sent to the server where they are analyzed to find evidence of lighting changes that match the code. If a good match is found, the user can be authenticated. Similar methods can be applied to other biometric data. Authentication applications include validation identification, pseudonymization, and the separation of human access attempts from non-human (robots). An online user authentication method includes transmitting information from a server to a user device, the user device including a lighting source; a camera capable of capturing video images of an online user; and in which the user device is capable of: receiving information; modulate the light source based on the code received from the agent; and transmit the captured video images of the online user to the server, receive on the server the captured video images of the online user transmitted by the user device, the video image being captured by the camera, while the light source is modulated in accordance with the code received from the agent, analysis of the received video images to detect evidence about changes in the light corresponding to the code; and generating an authentication response based on the analysis of the received video images.

The disadvantage of this invention is that it solves only authentication problems associated with confirming the validity of the pseudonym of the subject and the subject himself performing certain actions on the server (banking operations, etc.). This method cannot be used to authenticate events (court cases, etc.). In addition, the database of the prototype can be falsified, so the confirmation that this particular subject was removed at that moment after a certain period of time cannot be confirmed with certainty (the database of the agent can be hacked and rewritten).

Disclosure of invention

The objective of the invention is to provide objective evidence that these "events" were shot precisely in a given period of time and are reliable.

The problem is solved due to the fact that a method has been created to ensure the reliability of evidence by making a video of the object with the creation of a video file using the specified parameters of the modulated lighting and then comparing the specified parameters of the modulation of the light source with the parameters of the modulated lighting of the analyzed video file, while initiating the video recording process by first starting the process of generating the modulation code, either by using the data of the latest records in the blockchain network, or by by generating a pseudo-random code with writing this modulation code to the blockchain, for which a request is generated using a user account - date, time, device information contained in the device, create a light source modulation code unique for this request and write this modulation code to the blockchain next, the obtained modulation code is converted into a control modulating signal, which is transmitted to the light source, then, in accordance with the received modulating signal, the object is illuminated with a change in intensity In particular, in accordance with the modulating signal, at the same time video is taken for a specified period of time, then the hash function of the resulting video file is calculated and recorded in the hash blockchain of the video, and the modulation code and recording code are stored in the storage block of the user’s device and in the external storage modulation code, video file, hash video, hash video recording code, data block identifier, and provide an external user with access to the corresponding records of the user's device’s storage block, records outside storage to the records of the blockchain data block, for comparing the recorded data in the blockchain and the data received from the user, namely, the modulation code, the code for writing the modulation code, video file, hash video, the hash video recording code, to reconcile it with the data recorded in the data block blockchain, and analysis of the modulation code used to record the video file, after which the time range between the entries in the data block of the modulation code blockchain and hash video is established, based on which the recording time range of this video is determined and correspondingly The reliability of the event recorded in the video file is significant.

The device for implementing the method consists in the fact that it consists of a user computing device, a light source, a video camera, blockchain servers, external storage, and the user computing device comprises a request generation unit, a user account unit, a request transmission unit, a hash function calculation unit, data recording unit, modulation code conversion unit, light source control unit, video signal recording unit, video camera control unit, data generating and processing unit, unit user device’s storage, and the blockchain server contains blockchain data blocks and a decentralized application block containing a write request processing block, a modulation code generation block, a modulation code recording block, a hash video recording block, a blockchain data block contains a modulation code, a modulation code write code, hash video, hash video recording code, while the storage unit of the user device and external storage contain the modulation code, modulation code recording code, video file, hash video, hash video recording code and data block identifier x.

The method of operation of the device for ensuring the reliability of evidence is that they initiate the video recording process by launching a request generation unit that requests data from the user account unit and based on the received credentials from the account unit and system data of the user's computing device, such as date, time , information about the device and the data contained in the device, generates request data, which is transmitted to the request transmission unit, which, in turn, is associated with any of servers (node) of the blockchain, starting the decentralized application block, and transmits the request data to the processing unit for the write request to the decentralized application, while the write request processing unit transmits the request data to the block for generating the modulation code of the decentralized application, which, based on the data from the records of the blockchain data blocks and Based on the received request data, forms a modulation code unique to the request, the generated modulation code is transmitted to the write request processing unit for return and to the request transmission unit and transferred to the recording unit of the modulation code of the decentralized application, which writes the modulation code to the data blocks of the blockchain and returns the code of the modulation code to the write request processing unit to return to the request transfer unit, while the write request processing unit transmits the received modulation code and the modulation code recording code to the request transmission unit, or, as the modulation code, use the latest records in the blockchain data blocks, and use the modulation code writing code the codes of the records of the last records in the data blocks of the blockchain, for which the request transmission unit reads the necessary data, communicating with any blockchain server, the request transmission unit, in turn, transfers the received modulation code to the modulation code conversion unit, and the modulation code recording code and modulation code transmits to the data generation and processing unit, simultaneously launching the video signal recording unit, while the modulation code conversion unit converts the received modulation code into a control modulating signal, character which is specific for a particular type of user device, the modulating signal is transmitted to the light source control unit, and the light source control unit controls the luminous intensity of the light source in accordance with the received modulating signal, the light source illuminates the object with a change in the light intensity in accordance with the modulating signal, while the camcorder takes a picture of the object under lighting conditions with a modulated light source, and the video recording unit starts video recording, starting with ok, the video camera is controlled, while the video is recorded for a user-specified length of time, after which the video is stopped, the lighting modulation is stopped, and the recorded video file is transferred to the hash function calculation unit and to the data generation and processing unit, the hash function calculation unit calculates the hash function value in relation to the video file, the calculated hash value of the video is transmitted to the data recording unit and to the data generation and processing unit, and the data recording unit transfers the hash video to the hash recording unit of the video block dec a trailed application, or writes hash video to the blockchain data block without using a decentralized application, and the hash video recording block writes hash video to the blockchain data block and returns the hash video recording code to the data recording block, the data recording block transfers the hash video recording code to the block formation and processing of data that records data containing a modulation code, a code for recording a modulation code, a video file, hash video, a hash video recording code, as well as a data block identifier that allows you to search for data records, in the storage unit of the user’s device or on the external storage, and to check the validity of the data by the external user, they are provided with access to the corresponding records of the storage unit of the user’s device or to the records of the external storage using the data generation and processing unit of the user, or the specified data to the external user in any other accessible way, after which the external user checks for the presence of the modulation code record in the blockchain, while a search is made for the code for writing a modulation code and a hash video record, a search is made for a hash video record code, an external user calculates a hash function over the video file data and compares the result with the hash video recorded in the block data block, and with the help of the video file they analyze and the light source modulation code is extracted, and the obtained modulation code is compared with the modulation code of the blockchain recorded in the data blocks and, when the found modulation code and the calculated hash video match, the video is recorded blokcheyna bubbled in the data blocks, make sure that the events recorded on the video occurred in the time interval between the time stamps recording the recording modulation code and hash-blokcheyna video data blocks.

Brief Description of the Figures

In FIG. 1 shows a functional diagram of the operation of the device for implementing the method of ensuring the reliability of evidence.

Disclosure of invention

There are many cases where it is required to provide evidence of the reliability of an event. To do this, there are various ways to record an event in the form of a video. However, with the development of technology, faking videos becomes easier.

A method for ensuring the reliability of evidence is made by filming an object with a video file using the specified modulated lighting parameters and then comparing the specified parameters of the light source modulation with the modulated lighting parameters of the analyzed video file, the video recording process is initiated by first starting the modulation code generation process, or by using data last records in the blockchain network, or by generating a pseudo-random code with by writing this modulation code to the blockchain, for which a request is generated using a user account - date, time, device information contained in the device, create a light source modulation code unique to the request and write this modulation code to the blockchain, then convert the resulting code modulation into a control modulating signal, which is transmitted to a light source, then, in accordance with the received modulating signal, an object is illuminated with a change in the light intensity in accordance with the mode signal, at the same time video is taken for a specified period of time, then the hash function of the received video file is calculated and the video hash is recorded on the hash blockchain, and the modulation code, modulation code recording code, video file are stored in the storage block of the user’s device and in the external storage, hash video, hash video recording code, data block identifier, and provide an external user with access to the corresponding user device storage block records, external storage records and data block records b blockchain, for comparing the recorded data in the blockchain and the data received from the user, namely, the modulation code, modulation code recording code, video file, hash video, hash video recording code, for reconciling it with the data recorded in the blockchain data block, and analysis used recording the video file of the modulation code, after which the time range between the records in the data block of the blockchain of the modulation code and hash video file is established, based on which the time range of the recording of this video and, accordingly, the reliability of the event are determined, recording nnogo in a video file.

A device for implementing the method of ensuring the reliability of evidence consists of:

Computing device of user 1, light source 2, video camera 3, server (node) of blockchain 4, external storage 5.

The computing device of user 1 consists of: a request generation unit 7, a user account unit 8, a request transfer unit 9, a function hash calculation unit 10, a data recording unit 11, a modulation code conversion unit 12, a light source control unit 13, a video signal recording unit 14 , a control unit for a video camera 15, a data generation and processing unit 16, a storage unit of a user device 17.

The storage unit of the user device 17, in turn, contains: a modulation code 20, a modulation code 28 recording code, a video file 21, a hash video 19, a hash video code 18, an identifier for a data block 22.

The server (node) of blockchain 4 consists of a block of a decentralized application 23 and data blocks of blockchain 6.

The decentralized application block 23, in turn, consists of: a write request processing unit 24, a modulation code generation unit 25, a modulation code recording unit 26, a hash video recording unit 27.

External storage 5 consists of: modulation code 20, modulation code 28 recording code, video file 21, hash video 19, hash video recording code 18, data block identifier 22.

The method of operation of the device for ensuring the reliability of evidence is as follows.

1. User 29 initiates the video recording process by starting the request generation unit 7.

2. The request generation unit 7 requests the data of the user account unit 8 of the user 29. Based on the received user credentials 29 from the account unit 8 and the system data of the computing device of user 1 (date, time, device information and other data contained in the device ) the request generation unit 7 generates the request data, for example, as a data string, and transmits the request data to the request transmission unit 9.

3. The request transmission unit 9 for generating the modulation code 20 communicates with any of the servers (node) of the blockchain 4 network and either initiates the execution of the request processing unit for recording 24 of the decentralized application 23 (for example, the Ethereum platform is used as a blockchain, and as a decentralized applications 23 - a smart contract of the Ethereum platform) either uses the data of the server (node) of blockchain 4, for this, the request transmission block 9 reads the data of the last records in the data blocks of blockchain 6 from the server (node) of blockchain 4, for example hash pos ednego block or hash recent transactions, which are pseudo-random numbers. In this case, as the modulation code 20, the data of the last records in the data blocks of the blockchain 6 are used, and as the recording code of the modulation code 28, the recording codes used as the modulation code 20 of the data of the last records in the data blocks of the blockchain 6 are used.

4. The write request processing unit 24 transmits the request data to the modulation code generation unit 25.

5. The block for generating the modulation code 25 based on the received request data and using pseudo-random data (data of the block data block 6 can be used, including the hash of the last block or hash of the last transactions), generates a modulation code unique to the given request 20. Thus the code, for example, can be the result of computing a hash function over the request data and blockchain block data 6. The calculated modulation code 20 is transmitted to the write request processing unit 24 to return to the request transfer unit 9 and the code is transmitted to the write unit and modulations 26.

6. The unit for writing the modulation code 26 records the modulation code 20 in the data block of blockchain 6 and returns the code for writing the modulation code 28 to the processing unit for the write request 24 for return to the request transmission unit 9.

7. The write request processing unit 24 transmits the received modulation code 20 and the write code of the modulation code 28 to the request transmission unit 9.

8. The request transmission unit 9 transmits the obtained modulation code 20 to the conversion unit of the modulation code 12, and the recording code of the modulation code 28 and the modulation code 20 transmits to the data generating and processing unit 16. At the same time, the request transmission unit 9 starts the video recording unit 14.

9. The unit for converting the modulation code 12 converts the received modulation code 20 into a control modulating signal characteristic of a particular type of user computing device 1. The modulating signal is transmitted to the light source control unit 13.

10. The control unit of the light source 13 controls the intensity of the glow of the light source 2 in accordance with the received modulating signal.

11. The light source 2 illuminates the object 30 with a change in the intensity of illumination in accordance with the modulating signal.

12. The video camera 3 makes a video of the object 30 in the conditions of illumination by a modulated light source 2.

13. The video recording unit 14, starts the video recording by starting the video camera control unit 15.

14. Video recording is carried out until a user command 29 to stop the video recording is received. Upon receipt of such a command, the video recording stops, the video signal recording unit 14 transmits a stop signal to the modulation code conversion unit 12, and the recorded video file 21 is transmitted to the hash function calculation unit 11 and to the data generation and processing unit 16.

15. In the case of a lengthy video recording exceeding the duration of the modulation code 20, the modulation code conversion unit 12 transmits a request to the request transmission unit 9 to obtain additional modulation code with the same request data.

16. The hash function calculation unit 10 calculates the hash function value with respect to the video file 21. For the calculation of the hash function, for example, the SHA-256 standard can be used. The calculated hash value of video 19 is transmitted to the data recording unit 11.

17. The data recording unit 11 transfers the hash video 19 to the hash video recording unit 27 of the block of the decentralized application 23. The hash video recording in the data blocks of the blockchain 6 can be done without using the decentralized application 23.

18. The hash video recording unit 27 records the received hash video 19 into the data block of the blockchain 6 and returns the hash recording code 18 of the video 18 to the data block of the blockchain 6.

19. The data recording unit 11 transmits the hash recording code of the video 18 to the data generating and processing unit 16.

20. The data generating and processing unit 16 records data containing a modulation code 20, a modulation code 28 recording code, a video file 21, a hash video 19, a hash video recording code 18, and a data block identifier 22 that allows searching for necessary records in storage unit of user device 17 and / or to external storage 5.

21. To verify the reliability of the data by a third party (external user 31), the user 29, using the data generation and processing unit 16, provides external user 31 with access to the corresponding records of the storage unit of the user device 17 and / or external storage records 5, or otherwise provides external user 31 specified information.

22. The external user 31 checks for the presence in the data blocks of the blockchain 6 of the record of the modulation code 20, by searching the data blocks of the blockchain 6 by the code for writing the modulation code 28, and recording the hash video 19 by the hash video record code 18.

23. The external user 31 calculates the hash function on the data of the video file 21 and compares the result with that recorded in the data blocks of the blockchain 6 hash video 19.

24. If necessary, an external user can analyze the video 21 and extract the modulation code of the light source. The resulting modulation code is compared with modulation code 20.

25. In case of coincidence of the received by the external user 31 as a result of the analysis of the video file 21 modulation code and the calculated hash video with the data recorded in the data blocks of the blockchain 6, the external user 31 can be sure that the event recorded on the video 21 occurred in the interval between time stamps of the recording of the modulation code 20 and the hash recording of video 18 in the data blocks of blockchain 6.

An example of the implementation of the proposed method for ensuring the reliability of evidence:

1. As a computing device of user 1, any smartphone running the Android or iOS operating system, with a video camera and a flash lamp, for example, the Samsung Galaxy S7 SM-G930FZKUSER device, can be used.

2. As a request generation unit 7, user account unit 8, request transfer unit 9, function hash calculation unit 10, data recording unit 11, modulation code conversion unit 12, video signal recording unit 14, data generating and processing unit 16, unit SilentNotary mobile application blocks for the Android platform version 4.1 and higher may act as storages of user device 17.

3. For the calculation of hash functions, for example, the SHA-256 standard is used.

4. SilentNotary.io service using Google cloud storage (https://cloud.google.com) can be used as external storage.

5. Any server (node) of the Ethereum platform (Ethereum.org) can be used as the server (node) of blockchain 4, and a smart contract of the Ethereum platform written, for example, in Solidity language can be used as a block of a decentralized application 23. The data blocks of blockchain 6 can be Ethereum blockchain blocks.

6. For independent access to the data of blockchain data blocks 6, external user 31 can use any public blockchain data block reading system, for example, for the Ethereum platform it can use etherscan.io system.

All of the above and the above example confirms that the task is to provide objective evidence that these "events" were shot precisely in a given period of time and are reliable - the industrial applicability of the method for ensuring the reliability of evidence and the device for its implementation, as well as the method, was solved and confirmed the operation of this device.

The list of positions:

1. User computing device

2. Light source

3. Camcorder

4. Blockchain server (node)

5. External storage

6. Blockchain data blocks

7. Request generation unit

8. User account block

9. Request transmission unit

10. Block hash function calculation

11. The data recording unit

12. The block conversion of the modulation code

13. Light source control unit

14. Video recording unit

15. The camcorder control unit

16. The unit for the formation and processing of data

17. The storage unit of the user device

18. Hash video recording code

19. Hash video

20. Modulation Code

21. Video file

22. Data block identifier

23. Decentralized Application Block

24. Writing request processing unit

25. Block modulation code generation

26. The modulation code recording unit

27. Hash video recorder

28. The code entry code modulation

29. User

30. Object

31. External user

Claims (5)

1. A method of ensuring the reliability of evidence by making a video of the object with the creation of a video file using the specified parameters of the modulated lighting and then comparing the specified parameters of the modulation of the light source with the parameters of the modulated lighting of the analyzed video file, characterized in that initiate the video recording process by first starting the modulation code generation process, either by using the data of the latest records in the blockchain network, or by generating a pseudorandom code with writing this modulation code to the blockchain, for which a request is generated using the user account - date, time, information about the device contained in the device, they create a unique light source modulation code for this request and write this modulation code to the blockchain, then the resulting modulation code is converted into the control modulating signal, which is transmitted to the light source, then, in accordance with the received modulating signal, the object is illuminated with a change in the light intensity in accordance with the modulating signal, at the same time, video recording is performed for a given period of time, then the hash function of the resulting video file is calculated and recorded in the blockchain hash video, and also save the modulation code, the code for writing the modulation code, the video file, the hash video, the recording code in the storage block of the user's device and in the external storage and hash video, the identifier of the data block, and the request transmission unit transmits the received modulation code to the modulation code conversion unit, and the modulation code recording code and the modulation code are transmitted to the data generation and processing unit, at the same time starting the video signal recording unit, by means of the unit camera control, video recording is carried out by a user-specified length of time and stops by stopping the lighting modulation, the recorded video file is transferred to the hash function calculation unit and to the formation and processing unit data tags, then provide the external user with access to the corresponding records of the storage block of the user’s device, records of the external storage and records of the block data block for matching the recorded data on the block and data received from the user, namely the modulation code, modulation code recording code, video file, hash video, hash video recording code, for reconciling it with the blockchain data recorded in the block of data and analyzing the modulation code used to record the video file, after which the time range between pisyami blokcheyna in data modulation code block and the hash-Video, which is determined based on the time range of the video recording and, therefore, the accuracy of events recorded in the video. 2. The device for implementing the method according to claim 1, which consists in the fact that it consists of a user’s computing device, a light source, a video camera, blockchain servers, an external storage, a blockchain, while the user's computing device comprises a request generation unit, a user account unit, request transmission unit, hash function calculation unit, data recording unit, modulation code conversion unit, light source control unit, video signal recording unit, video camera control unit, formation unit and data processing, a storage block of a user’s device, and a blockchain server contains blockchain data blocks and a decentralized application block containing a write request processing block, a modulation code generation block, a modulation code recording block, a hash video recording block, a blockchain data block contains a modulation code, modulation code recording code, hash video, hash video recording code, while the storage unit of the user device and external storage contain the modulation code, modulation code recording code, video file, hash video, hash video recording code and ID a data block identifier, wherein the request generation unit is connected by one-way communication with the user and the request transmission unit and the two-way communication with the user account unit, and the request transmission unit is connected by the two-way communication with the modulation code conversion unit, the write request processing unit and the blockchain data units and the one-way communication with the video recording unit and the data generation and processing unit, the modulation code conversion unit is connected by one-way communication with the light source control unit and video recording control unit, the light source control unit is connected by one-way communication with the light source, and the light source is connected by one-way communication with the object, and the object, in turn, is connected by one-way communication with the video camera, which is connected by two-way communication with the video camera control unit, the video camera control unit is also connected by two-way communication with the video recording unit, while the video recording unit is connected by one-way communication with the hash function calculation unit and the data generation and processing unit, computing a hash function is connected by one-way communication with a data generation and processing unit and a data recording unit, while the data recording unit is connected by two-way communication with a hash video recording unit and one-way communication with a data generation and processing unit, and a data generation and processing unit is connected by two-way communication with the external user and the storage unit of the user device, and the write request processing unit is additionally connected by one-way communication with the modulation code recording unit and two-way communication with the unit generating a modulation code that is connected by one-way communication with a modulation code recording unit, a modulation code recording unit, in turn, is connected by one-way communication with a modulation code and a modulation code recording code, while the hash video recording unit is additionally connected by one-way communication with the hash video and code hash video recordings, and the blockchain data blocks are connected by two-way communication with an external user, and the external user, in turn, is connected by two-way communication with external storage, while the external storage is connected by one-way with liaison with the user. 3. The method of operation of the device for ensuring the reliability of evidence in paragraphs. 1 and 2, which consists in initiating the video recording process by running a request generation unit that requests data from the user account unit and based on the received credentials from the account unit and system data of the user's computing device, such as date, time, information about the device and the data contained in the device, form the request data, which is transmitted to the request transmission unit, which, in turn, communicates with any of the servers of the blockchain network, launching a decentralized application then the write request processing unit transmits the request data to the decentralized application modulation code generation unit, which, based on the modulation code and based on the received request data, generates a modulation code unique to the request, the generated modulation code is transmitted to the write request processing unit for return to the request transmission unit and transmit to the recording unit of the modulation code of the decentralized application, which writes the modulation code to the data blocks of the blockchain and returns the write code si of the modulation code to the write request processing unit for returning to the request transmission unit, while the write request processing unit transmits the received modulation code and the write code of the modulation code to the request transmission unit, or the latest entries in the blockchain data blocks are used as the modulation code, and as the code for recording the modulation code, the codes of the records of the last records in the blockchain data blocks are used, for which the request transmission unit reads the necessary data, communicating with any blockchain server, the request transmission unit in turn, it transmits the received modulation code to the data generation and processing unit and to the video signal recording unit, starting it, while the modulation code conversion unit converts the received modulation code into a control modulating signal specific to a particular type of user device, the modulating signal is transmitted to the source control unit light, and the light source control unit controls the luminous intensity of the light source in accordance with the received modulating signal, the light source is illuminated t an object with a change in the light intensity in accordance with the modulating signal, at this time the camcorder takes a picture of the object under lighting conditions with a modulated light source, and the video signal recording unit, having received the modulation code, starts video recording, starting the video camera control unit, while the video clip is set by the user-defined segment time, after which the video recording stops, the lighting modulation stops, and the recorded video file is transferred to the hash function calculation unit and to the formation unit and data processing, the hash function calculation unit calculates the value of the hash function in relation to the video file, the calculated hash video value is transmitted to the data recording unit and to the data generation and processing unit, and the data recording unit transfers the hash video to the hash video recording unit a decentralized application block either writes a hash video to the blockchain data block without using a decentralized application, and a hash video recording block writes a hash video to the blockchain data block and returns a hash video recording code, a recording block to the data recording block of data transmits a hash video recording code to a data generation and processing unit that records data containing a modulation code, a modulation code recording code, a video file, a hash video, a hash video recording code, as well as a data block identifier that allows searching for necessary records, in the storage unit of the user’s device or on external storage, while for checking the validity of the data by the external user, they are provided with access to the corresponding data using the data generation and processing unit of the user device records of the storage unit of the user’s device or to the records of the external storage, or they transmit the specified data to the external user in any other accessible way, after which the external user checks for the availability of the modulation code record in the data storage blocks, while searching for the modulation code record and hash record video, searching the hash video recording code, the external user calculates the hash function over the video file data and compares the result with that recorded in the bl data storage in the hash video blockchain, and using the video, the light source modulation code is analyzed and extracted, while the resulting modulation code is compared with the modulation code in the blockchain data blocks and if the found modulation code and the calculated hash video match the data recorded in blockchain data block, make sure that the event recorded on the video occurred in the interval between the time stamps of the code for recording the modulation code and the recording of hash video in the blockchain data blocks.

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