WO2021162584A1

WO2021162584A1 - Method for verifying voice biometric data

Info

Publication number: WO2021162584A1
Application number: PCT/RU2021/000064
Authority: WO
Inventors: Илья Владимирович РЕДКОКАШИН
Original assignee: Илья Владимирович РЕДКОКАШИН
Priority date: 2020-02-15
Filing date: 2021-02-15
Publication date: 2021-08-19
Also published as: RU2723902C1

Abstract

The invention relates to the field of computer engineering and particularly to user verification technology. The technical result is to increase the security of verification of voice biometric data and to protect against the falsification of voice biometric data. The technical result is achieved by a method for verifying voice biometric data which comprises: using a computer to ask the user for voice biometric data; while receiving the voice biometric data, using the computer to reproduce a signal which creates resonance in sound reproduction devices; sending the requested data to at least one server; comparing the received data with data of voice biometric information stored in a data base on the server; checking for resonance in the received data.

Description

METHOD FOR VOICE BIOMETRIC VERIFICATION

DATA

FIELD OF TECHNOLOGY

The invention relates to the field of computer networks, in particular to user verification technologies. More specifically, the invention relates to methods for verifying users using voice biometric data.

PRIOR ART

Currently, various methods are used to verify users. For example, there is a known "Method for providing authentication of a computer user on a network" US 6920561, which contains the steps:

(a) the capture of a user's biometric information by a computer;

(B) encrypting biometric information using the public key of the secure server and signing the biometric information using the private key of the computer system;

(c) sending encrypted and signed information from a computer to a secure server on the network;

(d) receiving and verifying credentials associated with signed and encrypted information from the secure server using the public key from the secure server; and

(e) setting credentials to the computer, if verified.

This method is convenient for user authentication, but it has a significant drawback. Features describing user verification, which is part of the authentication process, do not provide sufficient verification security. The biometric data used in the known method can be falsified. Voice biometric data can be tampered with using sound-producing devices. For example, voice biometric data can be recorded on a dictaphone. Algorithms can also be used that, based on a voice template, falsify voice biometrics. The task set by the developer of a method for verifying voice biometric data is to develop a method that, in comparison with analogs, would increase the security of user verification.

The technical result of the proposed method for verifying voice biometric data is to improve the security of verification of voice biometric data, protection against falsification of voice biometric data.

DISCLOSURE OF THE INVENTION

The essence of the method for verifying voice biometric data consists in the fact that the user is first asked for his voice biometric data using a computer. Then, during the reception of voice biometric data, a signal is reproduced with the help of a computer, which creates a resonance in the devices that reproduce sounds. After that, the requested data is sent to at least one server and the received data is compared with the data of the voice biometric information stored in the database on the server. And also check the presence of resonance in the received data. At the same time, they can also authenticate the user by checking the credentials associated with the information requested from the user, and provide access to the user to network resources. Also, to improve the accuracy of verification, the user may be prompted for at least one keyword. Before verification, a user can be registered by requesting the user's voice biometric data using a computer, and storing the voice biometric data in the database, or storing the voice biometric data in the database, linking them with the credentials. In the process of transmission, storage and other operations with voice biometric data, the requested information can be encrypted, or the information obtained on the basis of the requested information can be used. If the user is authenticated, the credentials can be installed on the user's computer. If necessary, they can save information about which users, from which devices transmit voice biometric data. To improve accuracy and security, the user may be prompted for additional information that is used to authenticate the user. The signal can create resonance that is invisible to humans, and the presence of resonance can be checked using a computer algorithm. They can also use different signals and receive different resonances, as well as compare the loudness of the resonance with the loudness of the voice biometric data and analyze the approximate distance from the microphone to the sound source. If the computer, with the help of which the voice biometric data is requested from the user, has the ability to reproduce sounds, then the resonance reproduced by this computer may not be taken into account when analyzing the voice biometric data, or it may create a signal for this computer that compensates for the resonance.

EXAMPLE OF SPECIFIC APPLICATION OF THE INVENTION

The claimed method for verifying voice biometric data is as follows. To implement the claimed method, the user is first registered by requesting the user's voice biometric data using a computer, and the requested data is associated with the credentials. Examples of voice biometric data are voice timbre and other voice parameters. Credentials can be created for the user, or they can use the previously created credentials. The database stores the user's credentials and biometric data. The database can be located on a server, or it can be on multiple servers, and each server can store different data. For verification purposes, they can register a user without using credentials, storing only his voice biometric data.

After the user is registered, the user can be verified using his voice biometric data.

To verify the user, the user's voice biometric data is requested from the user using a computer. Mobile devices such as cellular devices can be used as a computer. phones, tablets, laptops, etc., as well as any other devices capable of performing similar functions. The computer must be equipped with a microphone to receive voice biometric data. During the reception of voice biometric data, a signal is reproduced with the help of the user's computer, which creates a resonance in the devices that reproduce sounds. This signal can be a cellular base station signal, or any other signal that resonates with speakers that produce sounds. After that, the requested data is sent to the server. The invention contemplates that multiple servers can be used. The obtained data is compared with the data of the voice biometric information stored in the database on the server and the presence of resonance in the received data is checked. The presence of resonance may mean that the voice biometric data is forged and technical devices that reproduce sounds were used to reproduce them. It should also be taken into account that in the context of the present invention, the interference generated by the signal must also be considered as a resonance. After verifying the user, they can authenticate the user by checking the credentials associated with the information requested from the user and grant the user access to network resources. The user may be prompted for at least one keyword. Keywords can be used as an additional way to verify users. Keywords can be used in such a way that each new registered keyword or combination of words is not repeated with already registered keywords or combinations of words.

They can also encrypt the requested information or use the information obtained on the basis of the requested information, and store the information in a modified form in the database. An example of information obtained based on the requested information can be hash data. The credentials are installed on the user's computer as needed. For safety, they can save information about which users from which devices are transmitting data. For example, they may remember that John often uses verification using a device with a specific serial number or mobile phone number, etc. The user may be prompted for additional information that is used to user authentication or verification, such as device data or any other data.

The created resonance may not be noticeable to a person, and the presence of resonance is checked using a computer algorithm. The computer algorithm may be artificial intelligence that is trained to accurately recognize resonances.

For verification, they can also use different signals and receive different resonances, which excludes the possibility of adjusting to a specific resonance in order to fake the requested data. They can also change the intensity of the signal and its other parameters during its playback. In this case, the server analyzes the presence of a specific resonance that corresponds to the signal generated when the request was sent. They also compare the loudness of the resonance with the loudness of the voice biometric data and analyze the approximate distance from the micron to the sound sources. This comparison helps to improve the accuracy of the verification, since sometimes users may be near the devices playing sounds. For example, if the user is near the speakers, the speakers can create resonance. To understand that it is not the speakers that create voice biometric data, you need to analyze the distance to sound sources or apply other well-known methods for determining sound characteristics.

If the computer, with the help of which the voice biometric data is requested from the user, has the ability to reproduce sounds, then the resonance reproduced by this computer is not taken into account when analyzing the voice biometric data, or a signal is generated for this computer, which compensates for the resonance. For example, if a user uses a mobile phone that has speakers, then the mobile phone, for example, can receive software commands from the server that compensate for the resonance, or modify it, which highlights the resonance reproduced by the speaker of a particular device. The server can thus distinguish the resonance reproduced by the computer with which the voice biometric data is requested from the resonance reproduced by other devices. All of the above examples can be considered in various combinations and it should be borne in mind that these examples do not limit the application of the invention.

Claims

CLAIM

1. A method for verifying voice biometric data, in which: using a computer, a user is asked for his voice biometric data; while receiving voice biometric data, a signal is reproduced with the help of a computer, which creates a resonance in devices that reproduce sounds; send the requested data to at least one server; compare the received data with the data of voice biometric information stored in the database on the server; check for resonance in the received data.

2. The method for verifying voice biometric data according to claim 1, characterized in that the user is authenticated by checking the credentials associated with the information requested from the user, and provide the user with access to network resources.

3. A method for verifying voice biometric data according to claim 1, characterized in that at least one keyword is requested from the user.

4. The method for verifying voice biometric data according to claim 1, characterized in that the user is first registered by requesting the user's voice biometric data using a computer, and the voice biometric data is saved data in the database, or store voice biometric data in the database, linking it to credentials.

5. A method for verifying voice biometric data according to claim 1, characterized in that the requested information is encrypted or information obtained on the basis of the requested information is used, and the information is stored in a modified form in the database.

6. A method for verifying voice biometric data according to claim 2, characterized in that the credentials are installed on the user's computer.

7. A method for verifying voice biometric data according to claim 1, characterized in that they store information about which users, from which devices are transmitting data.

8. A method for verifying voice biometric data according to claim 2, characterized in that additional information is requested from the user, which is used to authenticate the user.

9. A method for verifying voice biometric data according to claim 1, characterized in that a signal is used to create a resonance that is invisible to a person, and the presence of a resonance is checked using a computer algorithm.

10. A method for verifying voice biometric data according to claim 1, characterized in that different signals are used and different resonances are obtained, and the loudness of the resonance is compared with the loudness of the voice biometric data and the approximate distance from the microphone to the sound source is analyzed.

11. The method of verifying voice biometric data according to claim 1, characterized in that if the computer with which they request voice biometric data from the user has the ability to reproduce sounds, then the resonance reproduced by this computer is not taken into account when analyzing voice biometric data, or a signal is created for this computer that compensates for the resonance.