KR102335892B1 - Method for identifying user using sound and apparatus therefor - Google Patents

Abstract

Disclosed are a user identification method using sound and an apparatus therefor. When the call connection device receives the call data to which the first identification sound is added, the call connection device identifies the counterpart of the phone call based on the first identification sound included in the call data.

Description

Method for identifying user using sound and apparatus therefor

An embodiment of the present invention relates to a method and an apparatus for identifying a telephone call counterpart, and more particularly, to a method and an apparatus for identifying a telephone call counterpart using sound.

Voice phishing crimes impersonating the National Police Agency, banks, and the Financial Supervisory Service are occurring. In the past, criminals simply forged caller information, but recently, when victims make calls to the National Police Agency, it is evolving into a method of sophisticated deception by routing calls to voice phishing organizations, making it difficult to determine whether or not voice phishing is present.

The technical problem to be achieved by the embodiment of the present invention is to provide a method and an apparatus for identifying a phone call counterpart using a unique identification sound given to each user.

In order to achieve the above technical problem, an example of a user identification method using sound according to an embodiment of the present invention is a user identification method performed by a call connection device, the method comprising: connecting a phone call; Receiving the call data to which the first identification sound is added; extracting a first identification sound included in the call data; and identifying a phone call counterpart based on the first identification sound.

In order to achieve the above technical object, an example of a call connection device according to an embodiment of the present invention includes a storage unit for storing a first identification sound including a sound of a predefined frequency band; a sound adding unit for adding the first identification sound to call data; and a transceiver for transmitting the call data to the other party of the phone call.

According to an embodiment of the present invention, a phone call counterpart can be identified using a unique identification sound given to each user. Even if the phone number is forged, it is possible to accurately identify the person on the phone call through the identification sound, thereby preventing crimes such as voice phishing using call routing. In addition, it is possible to provide prompt service through automatic customer identification using an identification sound without the need to input separate information for customer identification at a corporate customer service center that provides Automatic Response Service (ARS).

1 is a view showing an example of a user identification method using sound according to an embodiment of the present invention;
2 is a diagram illustrating an example of a method of adding an identification sound to call data according to an embodiment of the present invention;
3 is a view showing an example of a sound identification server according to an embodiment of the present invention;
4 is a diagram illustrating an example of a method for a sound identification server to assign an identification sound according to an embodiment of the present invention;
5 is a view showing an example of a user identification method using a sound identification server according to an embodiment of the present invention;
6 is a diagram illustrating an example of information included in an identification sound according to an embodiment of the present invention;
7 is a view showing an example of an identification sound policy according to an embodiment of the present invention;
8 is a diagram illustrating an example of applying a user identification method using an identification sound to an ARS service according to an embodiment of the present invention;
9 is a diagram illustrating an example of a method for transmitting and encrypting call data in block units according to an embodiment of the present invention;
10 is a diagram illustrating the configuration of an example of a call connection device according to an embodiment of the present invention.

Hereinafter, a user identification method using sound and an apparatus thereof according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an example of a user identification method using sound according to an embodiment of the present invention.

Referring to FIG. 1 , a first call connection device 100 and a second call connection device 150 mean all types of terminals capable of making a phone call, such as a general landline phone or a smart phone, for example.

The communication network 180 connecting the first call connection device 100 and the second call connection device 150 may be a wired phone network or a wireless phone network (mobile communication network), or an Internet network for Voice over Internet Protocol (VoIP). Hereinafter, the phone call network is not limited to a specific communication network, but refers to all types of networks used for phone calls between the first call connection device 100 and the second call connection device 150 .

The first call connection device 100 or the second call connection device 150 uses the first identification sound 120 or the second identification sound 170 to identify the other party of the phone call as a ring back sound or a call during a phone call. included in the data and transmitted. The following embodiments including this embodiment show an example in which both the first call connection device 100 and the second call connection device 150 transmit their respective identification sounds 120 and 170 for convenience of explanation, In another embodiment, only one of the first call connection device 100 and the second call connection device 150 may be implemented to transmit its own identification sound.

Accordingly, the present embodiment proposes a method of transmitting the first identification sound 120 or the second identification sound 170 through the telephone communication network, which will be described in detail below with reference to FIG. 2 .

Each of the call connection devices 100 and 150 uses the identification sounds 120 and 170 received from the call connection device of the other party to identify the phone call counterpart 110 , 160 . The identification sound is a unique sound given to each user 110 , 160 , and thus the call connection device 100 , 150 may identify the user 110 , 150 by identifying which user the received identification sound is given to. To this end, each of the call connection devices 100 and 150 may pre-store information on an identification sound for each user. For example, the users 110 and 160 may receive an identification sound stored in the smart phone from a smart phone such as a family member or friend to their call connection device, and then map it to a contact information and store it.

In another embodiment, as shown in FIG. 3 , the sound identification server 300 stores and manages information on the identification sound for each user, and each call connection device 100 , 150 receives the user corresponding to the identification sound through the sound identification server 300 . can figure out An example of the sound identification server 300 is shown in FIG. Hereinafter, a method of managing an identification sound through the sound identification server 300 will be described.

2 is a diagram illustrating an example of a method of adding an identification sound to call data according to an embodiment of the present invention.

Referring to FIG. 2 , call data 240 includes a sound of a predetermined frequency band (hereinafter, referred to as a phone call frequency band) 200 . For example, when the call connection device is a smart phone, the smart phone converts the sound of the surrounding environment including the user's voice input through the microphone into a digital signal and transmits the call data 240 generated by the communication network to the other party. It is transmitted to the call connection device, and at this time, the sound converted into a digital signal is a sound of a predefined telephone call frequency band 200 .

As an embodiment, the phone call frequency band 200 may include an audible frequency band 220 and non-audible frequency bands 210 and 230 around it. In this case, the identification sound may be a sound of an inaudible frequency band.

In another embodiment, if the inaudible frequency bands 210 and 230 do not exist in the phone call frequency band 200, or if it is difficult to add the identification sound because the inaudible frequency bands 210 and 230 are narrow, the identification sound is the audible frequency band 220. It may be a sound of some or all of the bands or a band including a part of the inaudible frequency bands 210 and 230 and the audible frequency band 220 .

The call connection device may store the identification sound, which is a sound of a predefined frequency band, in the form of an audio file. In addition to this, the call connection device may store the identification sound in various file types or various data types. In another embodiment, the call connection device stores the user identification code, and if necessary, may generate the user identification code as an identification sound that is a sound of a predefined frequency band.

The call connection device may generate call data including a sound input through a microphone of the call connection device and an identification sound. That is, since the identification sound is a sound within the telephone call frequency band 200, the call connection device digitizes the sound of the telephone call frequency band 200 as in the prior art to generate call data, the call data includes the identification sound.

In another embodiment, the identification sound may be stored in a separate sound generating device other than the call connection device. In this case, when the user turns on the sound generating device in which the identification sound is stored and then makes a phone call to the call connection device, the identification sound is added to the call data. In other words, since not only the user's voice but also the identification sound output from the sound generating device is input to the microphone of the call connection device, the identification sound is naturally added to the call data.

3 is a diagram illustrating an example of a sound identification server according to an embodiment of the present invention.

Referring to FIG. 3 , the sound identification server 300 is connected to each of the call connection devices 100 and 150 through the communication network 310 . The sound identification server 300 gives each user a unique identification sound, and stores and manages information on the identification sound for each user. An example of how the sound identification server 300 grants an identification sound to each user is shown in FIG. 4 . In addition, an example of a method for each of the call connection devices 100 and 150 to identify a phone call counterpart through the sound identification server 300 is illustrated in FIG. 5 .

4 is a diagram illustrating an example of a method for a sound identification server to assign an identification sound according to an embodiment of the present invention.

Referring to FIG. 4 , the user of the first call connection device 100 registers as a member in the sound identification server 300 ( S400 ). The sound identification server 300 generates a user identification code using user information or unique information (eg, phone number, etc.) of the first call connection device (S410). The sound identification server 300 maps and stores the user identification code and user information (S420).

The sound identification server 300 transmits the user identification code to the first call connection device 100 (S430). In an embodiment, the sound identification server 300 may encrypt the user identification code and transmit it to the first call connection device 100 . In another embodiment, the sound identification server 300 may transmit an identification sound made by using a user identification code (or an encrypted user identification code) as a frequency waveform of a predetermined band in the form of an audio file to the first call connection device 100 . . In another embodiment, the sound identification server 300 may make and transmit the identification sound in the form of a dedicated file for this embodiment, not an audio file, or may make and transmit the identification sound in the form of various conventional files.

The first call connection device 100 stores the user identification code (or encrypted user identification code) received from the sound identification server 300 locally. If the user signs up for a membership with a device other than the first call connection device 100, the sound identification server 300 receives information about the first call connection device 100 from the user (eg, a phone number). After receiving the input, the user identification code (or the encrypted user identification code) may be transmitted to the first call connection device 100 . In another embodiment, the first call connection device 100 stores an identification sound converted from a user identification code (or an encrypted user identification code) into a sound of a predefined frequency band in the form of an audio file, or the sound identification server 300 ) can receive and store the identification sound in the form of an audio file.

The first call connection device 100 may include applications for the following various embodiments including this embodiment. For example, the call connection device 100 may download and install the dedicated application for this embodiment from various app stores (eg, Google Store, etc.) or download and install it from the sound identification server 300 . Alternatively, the application for the present embodiment may be pre-loaded in the first call connection device.

5 is a diagram illustrating an example of a user identification method using a sound identification server according to an embodiment of the present invention.

Referring to FIG. 5 , the first call connection device 100 receives a phone number selection from the user ( S500 ). The first call connection device 100 transmits the selected phone number to the sound identification server 300 (S505).

The sound identification server 300 determines whether an identification sound policy corresponding to the received phone number exists (S510), and transmits the identified identification sound policy to the first call connection device 100 (S515). The sound identification server 300 may store the received phone number and utilize it for call history inquiry.

The identification sound policy defines how the first call connection device 100 transmits the identification sound, and various embodiments are shown in FIGS. 6 to 9 . The identification sound policy may be different for each user.

In another embodiment, the sound identification server 300 may store the identification sound policy for some users by mapping the corresponding user's phone number. For example, the sound identification server 300 may receive identification sound policy registration from each user in the process of granting a salpin identification sound in FIG. 4 . As another example, the sound identification server 300 may be registered with the identification sound policy only when the user is a company.'

When a phone call is connected (S520), the first call connection device 100 adds an identification sound to the call data according to the identification sound policy and transmits it (S525, S535), and the second call connection device 150 also makes an identification sound According to the policy, an identification sound is added to the call data and transmitted (S530, S535). The identification sound policy is a policy registered by the user of the second call connection device 150 , and thus the identification sound policy may be previously stored in the second call connection device 150 . If the identification sound policy is not stored in the second call connection device 150, the second call connection device 150 transmits its phone number to the sound identification server 300 to receive the identification sound policy registered by itself. have.

For example, if the identification sound policy is a policy in which the caller transmits his/her first identification sound for 5 seconds from the time of call connection, and then the receiver transmits the second identification sound, the first call connection device 100 First, the first identification sound is added to the call data at the time of call connection and transmitted, and then, when the second call connection device 100 reaches the time defined in the identification sound policy, the second identification sound is added to the call data and transmitted. .

Although this embodiment shows an example in which the second call connection device 150, which is the receiver, uses the identification sound policy registered in the sound identification server 300, it is not necessarily limited thereto. For example, the first call connection device 100, which is the caller, may use an identification sound policy registered in the sound identification server 300, or an identification sound policy defined in advance by the sound identification server 300 may be used.

In another embodiment, the process (S505, S510, S515) for the first call connection device 100 to determine the identification sound policy may be omitted. For example, when the identification sound policies of each call connection device 100 and 150 are all the same, or when the identification sound policy of the second call connection device 150 is stored in the first call connection device 100 (for example, , when the identification sound policy has been previously received from the sound identification server 300 ), the first call connection device 100 may omit the identification sound policy identification process through the sound identification server 300 .

The first call connection device 100 and the second call connection device 150 extract the counterpart identification sound added to the transmitted/received call data (S540 and S545). The first call connection device 100 transmits the second identification sound of the extracted second call connection device 150 to the sound identification server 300 (S550), and the sound identification server 300 corresponds to the second identification sound. The user information is identified and provided to the first call connection device 100 (S555). In addition, the second call connection device 150 transmits the first identification sound of the extracted first call connection device 100 to the sound identification server (S560), and the sound identification server 300 corresponds to the first identification sound. The user information is identified and provided to the second call connection device 565 .

The first call connection device 100 and the second call connection device 150 receive information about the counterpart of the phone call from the sound identification server 300 . Therefore, when the voice phishing organization deceives the recipient through call routing, the first call connection device 100 cannot receive the second identification sound of the second call connection device 150 that originally intended to make a phone call, so whether can figure out As another example, when the second call connection device 150 is a corporate customer center such as an ARS, the second call connection device 150 quickly transmits user information of the first call connection device 100 without receiving additional information. It can be identified and provided various services.

In this embodiment, the order or method in which the first call connection device 100 and the second call connection device 150 transmit the identification sound may vary depending on the identification sound policy, and FIG. 5 is only one example. The transmission order and method of are not limited to the example of FIG. 5 .

In addition, this embodiment shows an example in which both the first call connection device 100 and the second call connection device 150 add their respective identification sounds to the call data to facilitate understanding, but this is only an example. can be variously modified. For example, the first call connection device 100 may transmit the first identification sound and the second call connection device 150 may not transmit the second identification sound. In this case, the second call connection device 150 , which is the receiver of the phone call, may identify the user of the first call connection device 100 . As another example, the second call connection device 150 may transmit the second identification sound and the first call connection device 100 may not transmit the first identification sound. In this case, the first call connection device 100 , which is the calling party of the phone call, may identify the user of the second call connection device 150 . In another embodiment, the identification sound may be added to the ringback tone instead of the call data after the call is connected.

6 is a diagram illustrating an example of information included in an identification sound according to an embodiment of the present invention.

Referring to FIG. 6 , the identification sound 600 may include a user identification code 610 and a variable code 620 . Information included in the identification sound may be predefined or may be different for each user according to the identification sound policy salpinned in FIG. 5 .

The user identification code 610 is fixed information uniquely assigned to each user, and the variable code 620 is information that is changed every time the identification sound 600 is added to call data. An example of the variable code 620 includes time information (eg, time information up to a minute or second unit) or OTP (One Time Password) information used for financial services, and the like. In addition to this, various information may be used as the variable code 620 according to an embodiment. Since the variable code 620 is information that is changed for each phone call, it is possible to prevent a malicious third party from recording the content of the call and using it maliciously.

The call connection devices 100 and 150 or the sound identification server 300 may make the user identification code 610 of each user into a waveform of a predefined frequency band (eg, salpin inaudible frequency band in FIG. 2 ). Various conventional encoding/decoding methods for making the digital value of the user identification code 610 into an analog frequency waveform or vice versa may be applied to this embodiment.

The call connection device receives and stores the user identification code (or encrypted user identification code) from the sound identification server 300 as shown in FIG. 4 . The call connection device identifies the user identification code (or encrypted user identification code) and the variable code 620 during a phone call with a waveform of a predefined frequency band (eg, salpin inaudible frequency band in FIG. 2). Generates sound 600 . The call connection device transmits an identification sound including a user identification code 610 and a variable code 620 in addition to the call data.

The receiving-side call connection device extracts the identification sound 600 added to the call data, and after identifying the user identification code 610 and the variable code 620 included in the extracted identification sound 600, the variable code 620 is It can be identified whether information is added according to a predefined identification sound policy. For example, when the variable code 620 is time information, the receiving-side call connection device may compare it with time information of the current call time, and if it is time information within a certain range, it may be recognized as a legitimate identification sound.

In another embodiment, the call connection device may extract the identification sound added to the call data, and transmit the extracted identification sound (eg, sound data of an inaudible frequency band) to the sound identification server 300 as it is. In this case, the sound identification server 300 decodes the identification sound to determine the user identification code 610 and the variable code 620, and then determines whether or not it is a valid user identification sound through the variable code 620, and the user identification code Through 610, the user information may be identified and transmitted to the call connection device.

7 is a diagram illustrating an example of an identification sound policy according to an embodiment of the present invention.

Referring to FIG. 7 , the first call connection device 100 and the second call connection device 150 transmit the identification sound according to the identification sound policy. The identification sound policy may define the insertion point of the identification sound or the transmission interval. In addition to this, the identification sound policy may be defined in various ways according to embodiments.

For example, after the identification sound policy is connected to a phone call, from t1 (eg, when a phone call is connected, etc.) ), and the receiver, the second call connection device 150, repeatedly transmits the second identification sound 720 from t2 at regular intervals (t4-t1).

Even if the identification sound is leaked to a malicious third party, it is possible to determine whether the user is a legitimate user by verifying the transmission interval of the identification sound policy.

8 is a diagram illustrating an example of applying the user identification method using an identification sound to an ARS service according to an embodiment of the present invention.

Referring to FIG. 8 , when the receiving-side call connection device is a corporate customer center that provides an ARS service, the user of the calling-side call connection device dials an ARS phone number and selects the ARS menu ( S800 ).

The calling party call connection device adds the identification sound to the call data when the ARS menu is selected (S810), and transmits the call data to which the identification sound is added to the receiving party call connection device (S820). In other words, when the ARS menu is selected in the call connection device of the calling party, call data including menu selection information is transmitted to the call connection device of the calling party, and an identification sound is added to the call data.

In order to prevent theft of the identification sound by a malicious third party, the calling party call connection device may use the identification sound including the service identification code of the ARS menu. For example, the identification sound 600 of FIG. 6 may include the service identification code together with the user identification code and the variable code, or may include the user identification code and the service identification code without the variable code.

The service identification code assigned to each ARS menu may be registered in advance in the calling party's call connection device or may be registered in the sound identification server 300 . If the service identification code is registered in the sound identification server 300, the calling-side call connection device transmits the ARS menu information selected by the user to the sound identification server 300, and corresponds to the ARS menu information from the sound identification server 300 A service identification code may be provided.

9 is a diagram illustrating an example of a method of transmitting call data by encrypting it in block units according to an embodiment of the present invention.

Referring to FIG. 9 , the calling party's call connection device encrypts the call data into blocks of a predetermined size (900, 910, 920) and transmits the encrypted call data to the receiving party's call connection device. The calling party's call connection device encrypts the first block 900 including the call data and the first private key with the public key, and encrypts the second block 910 including the call data and the second private key with the first private key. do. The calling party's call connection device encrypts the Nth block 920 with the (N-1)th secret key in this way.

The (N+1)th block 930 includes call data and a first secret key, and the calling party's call connection device encrypts the (N+1)th block with the Nth secret key. The next block contains the second secret key and is encrypted with the first secret key. That is, the calling party's call connection device may use the N secret keys to encrypt and transmit the call data. An identification sound may exist in the call data of all or some blocks.

When the receiving-side call connection device receives the first block 900, it decrypts 950 with the public key to obtain the call data and the first private key. Upon receiving the second block 910, the receiving-side call connection device decrypts (960) the second block with the first secret key obtained through the first block. The Nth block is decrypted (970) with the (N-1)th secret key, and the (N+1)th block is decrypted (980) with the first secret key. That is, the receiving-side call connection device decrypts the currently received block with the secret key obtained through the previous block.

To this end, each call connection device may be assigned a public key and a private key from the sound identification server (300). For example, the sound identification server 300 may issue a plurality of private keys and a public key thereto to the calling party call connection device. The public key can be disclosed to all call connection devices. In another embodiment, the sound identification server 300 may generate a common public key, generate a plurality of different private keys corresponding to the common public key, and then issue each private key to each call connection device. . The receiving-side call connection device that has legitimately received the public key from the sound identification server can decrypt the calling-side call data.

Call data is encrypted and transmitted in block units, and the secret key for decryption exists in the previous block, so a malicious third party cannot eavesdrop on the contents in the middle of a call. Also, even if a malicious third party obtains the public key, if the first block between the call connection devices is not secured, subsequent blocks cannot be decrypted.

10 is a diagram illustrating the configuration of an example of a call connection device according to an embodiment of the present invention.

Referring to FIG. 10 , the call connection devices 100 and 150 include a storage unit 1000 , a sound adding unit 1010 , a user identification unit 1020 , and a transmitting/receiving unit 1030 . The call connection devices 100 and 150 may be implemented by further including the additional configuration of the present embodiment in all types of terminals capable of conventional phone calls, such as smart phones. An additional configuration of the present embodiment may be implemented and added in the form of an application.

The storage unit 1000 stores the user identification code (or encrypted user identification code) received from the sound identification server 300 . In another embodiment, the storage unit 1000 may store the identification sound made of the user identification code as a sound of a predetermined frequency band in the form of an audio file. In another embodiment, the storage unit 1000 may store not only the user identification code, but also the salpin identification sound policy in FIG. 5 and the service identification code of the salpin ARS menu in FIG. 8 .

The sound adding unit 1010 adds an identification sound to call data when a call is connected. For example, the sound adding unit 1010 may input an identification sound made of a user identification code as a sound of a predetermined frequency band to the input terminal of the microphone of the call connection devices 100 and 150 . In this case, the call connection devices 100 and 150 may generate call data by digitizing the user's voice waveform input through the microphone and the sound waveform of the identification sound together.

In another embodiment, the sound adding unit 1010 may further add a salpin variable code in FIG. 6 to the identification sound or further add a salpin service identification code in FIG. 8 .

In another embodiment, the sound adding unit 1010 may determine the timing or transmission interval for adding the identification sound to the call data according to the identification sound policy, an example of which is shown in FIG. 7 .

The transceiver 1030 transmits call data to which an identification sound is added. In another embodiment, the transceiver 1030 may encrypt and transmit call data in units of a predetermined block, an example of which is shown in FIG. 9 . In addition, when the transceiver 1030 receives the encrypted block unit call data, it may decrypt it.

The user identification unit 1020 extracts an identification sound included in the call data received from the other party's call connection device, and identifies the phone call counterpart by using the identification sound. For example, if the user identification unit 1020 locally stores information on the identification sound for each user, it is possible to identify who the phone call counterpart is by searching for information stored locally based on the extracted identification sound. As another example, the user identification unit 1020 may transmit the extracted identification sound to the sound identification server 300 and receive user information from the sound identification server 300 .

The present invention can also be implemented as computer-readable codes on a computer-readable recording medium. The computer-readable recording medium includes all types of recording devices in which data readable by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, and optical data storage device. In addition, the computer-readable recording medium is distributed in a network-connected computer system so that the computer-readable code can be stored and executed in a distributed manner.

So far, the present invention has been looked at with respect to preferred embodiments thereof. Those of ordinary skill in the art to which the present invention pertains will understand that the present invention can be implemented in a modified form without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is indicated in the claims rather than the foregoing description, and all differences within the scope equivalent thereto should be construed as being included in the present invention.

Claims (8)

In the user identification method performed by the call connection device,
connecting a phone call;
Receiving the call data to which the first identification sound is added;
extracting a first identification sound included in the call data;
identifying a phone call counterpart based on the first identification sound; and
and transmitting a second identification sound of the call connection device to the other party of the phone call. The method of claim 1,
The first identification sound is a user identification method using a sound, characterized in that the sound of a predefined band. The method of claim 1, wherein the identifying comprises:
Recognizing user information corresponding to the first identification sound based on mapping information between the user information and the information on the identification sound registered in the sound identification server; delete According to claim 1, wherein the step of transmitting the second identification sound,
receiving an identification sound policy of the phone call counterpart from a sound identification server;
adding the second identification sound to call data based on the insertion time or transmission interval of the identification sound included in the identification sound policy; and
and transmitting the call data to which the second identification sound is added to the phone call counterpart. The method of claim 1,
The first identification sound is a user identification method using sound, characterized in that it includes a variable code that is changed whenever it is added to the call data. The method of claim 1,
The first identification sound is a user identification method using sound, characterized in that inserted into the call data at the time of selecting the menu of the ARS. delete

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