KR20180082943A - Method and apparatus for updating authentication reference information used for electrocardiogram signal authentication - Google Patents

Abstract

Disclosed is a method for updating reference verification information used for electrocardiogram (ECG) signal verification. According to an embodiment of the present invention, the method for updating reference verification information includes verifying a measured ECG signal by comparing a reference ECG signal with the measured ECG signal; and updating reference verification information by comparing the verified ECG signal with the reference ECG signal.

Description

TECHNICAL FIELD [0001] The present invention relates to a method and an apparatus for updating authentication reference information used for authentication of an electrocardiogram signal,

The following embodiments relate to a method and apparatus for updating authentication reference information used for ECG signal authentication.

Biometrics authentication technology authenticates users using fingerprints, irises, voices, faces, electrocardiogram signals, and so on. The biometric characteristics used for authentication vary from person to person, not only because of the inconvenience of possession, but also because they do not change well throughout their lives. Particularly, an authentication technique based on an ECG (Electrocardiogram) signal is advantageous in that it is difficult to be falsified, has a relatively high stability, and has a high identification rate. Recently, an authentication technique based on an electrocardiogram signal has attracted much attention.

A method for updating authentication reference information used for ECG signal authentication according to one side includes: identifying a first electrocardiogram signal measured by the user for ECG signal authentication of a user; Authenticating the first electrocardiogram signal using a reference electrocardiogram signal set including a second electrocardiogram signal to be compared with the first electrocardiogram signal; Setting the first electrocardiogram signal succeeding the authentication as a third electrocardiogram signal and adding the first electrocardiogram signal to the authentication electrocardiogram signal set when the first electrocardiogram signal is successfully authenticated; And updating the reference ECG signal set by setting a third electrocardiogram signal included in the authentication ECG signal set as a second ECG signal based on the reference ECG signal set and the authentication ECG signal set.

Wherein the authenticating comprises: determining an authentication threshold based on at least one of a degree of similarity between the second electrocardiogram signals and a number of the second electrocardiogram signals; Determining a degree of similarity between the second electrocardiogram signal and the first electrocardiogram signal; And authenticating the first electrocardiogram signal by comparing the determined authentication threshold with the determined similarity.

Wherein the step of updating comprises: if the number of the third electrocardiogram signals included in the set of authentication ECG signals is equal to or greater than the update threshold value, updating the reference ECG signal set based on the set of certified ECG signals 3 electrocardiogram signal may be set as the second electrocardiogram signal and added to the reference electrocardiogram signal set.

Wherein the updating includes: determining a similarity between the second electrocardiogram signal and a third electrocardiogram signal included in the authentication ECG signal set, and grouping the third electrocardiogram signal based on the determined similarity; And

Setting a third electrocardiogram signal included in the same group as the second electrocardiogram signal as a second electrocardiogram signal based on the grouping result and adding the set second electrocardiogram signal to the reference electrocardiogram signal set .

Wherein the grouping includes grouping third electrocardiogram signals having a degree of similarity to a second electrocardiogram signal equal to or greater than a first grouping threshold value into a first group and comparing the degree of similarity with the second electrocardiogram signal to a first grouping threshold value, Grouping the third electrocardiogram signals whose similarities are greater than or equal to the second grouping threshold value to the second group and grouping the third electrocardiogram signals not included in the first group and the second group into the third group.

The adding step may add the third electrocardiogram signal included in the first group and the second group to the reference ECG signal set by setting the second reference ECG signal.

Wherein the updating comprises: determining a degree of similarity between the second electrocardiogram signal and a third electrocardiogram signal included in the set of authenticating electrocardiogram signals; Generating an undirected graph for the second electrocardiogram signal and the third electrocardiogram signal based on the determined degree of similarity; Grouping the second electrocardiogram signal and the third electrocardiogram signal into two groups by applying a minimum cut based on the determined degree of similarity to the generated undirected graph; And adding a third electrocardiogram signal of the group including the second electrocardiogram signal among the two groups as a second electrocardiogram signal to the reference electrocardiogram signal set.

The generating of the omnidirectional graph may connect each of the second electrocardiogram signal and the third electrocardiogram signal through a connection line for which the determined degree of similarity is set to a weight.

The step of generating the omnidirectional graph may further include the step of simplifying the omnidirectional graph by removing the connecting line whose weight is equal to or less than the simplified threshold value.

Wherein the updating comprises: setting a third electrocardiogram signal included in the set of certified electrocardiogram signals as a second electrocardiogram signal based on the set of reference electrocardiogram signals and the set of authentication electrocardiogram signals; And determining a sum of degrees of similarity between the second electrocardiogram signals for each of the second electrocardiogram signals when the number of second electrocardiogram signals included in the reference electrocardiogram signal set is equal to or greater than a removal threshold value, The second electrocardiogram signal may be removed.

An electrocardiogram signal authentication apparatus for updating authentication reference information used for authentication of an electrocardiogram signal according to one side includes: a processor; And a memory for storing one or more instructions executable by the processor, wherein if the one or more instructions are executed by the processor, the processor is configured to: The first electrocardiogram signal is identified using the reference electrocardiogram signal set including the first electrocardiogram signal and the second electrocardiogram signal to be compared with the first electrocardiogram signal, and when the first electrocardiogram signal is successfully authenticated, Setting a successful first electrocardiogram signal as a third electrocardiogram signal and adding it to an authenticated electrocardiogram signal set and generating a third electrocardiogram signal included in the authenticated electrocardiogram signal set based on the reference electrocardiogram signal set and the authenticated electrocardiogram signal set as a second Set the ECG signal and update the reference ECG signal set .

Wherein the processor determines an authentication threshold value based on at least one of a degree of similarity between the second electrocardiogram signals and a number of the second electrocardiogram signals and outputs the second electrocardiogram signal and the first electrocardiogram signal included in the reference electrocardiogram signal set, The first electrocardiogram signal can be authenticated by determining the similarity of the signal and comparing the determined authentication threshold value with the determined similarity.

Wherein the processor is configured to determine a degree of similarity between the second electrocardiogram signal and a third electrocardiogram signal included in the set of authentication ECG signals and to group the third electrocardiogram signals based on the determined degree of similarity, Sets a third electrocardiogram signal included in the same group as the second electrocardiogram signal as a second electrocardiogram signal, and adds the set second electrocardiogram signal to the reference electrocardiogram signal set.

1 is a diagram for explaining a process of updating authentication reference information according to an embodiment.
2 is a diagram for explaining a first electrocardiogram signal and a second electrocardiogram signal according to an embodiment.
3 is a flow diagram illustrating the operation of a method for updating authentication reference information in accordance with one embodiment.
FIG. 4 is a flowchart illustrating a process of updating a reference ECG signal set according to an exemplary embodiment of the present invention.
5 is a diagram for explaining a process of updating a reference ECG signal set according to an embodiment.
6 is a flowchart illustrating a process of updating a reference ECG signal set according to another embodiment.
7 is a diagram for explaining a process of updating a reference ECG signal set according to another embodiment.
8 is a diagram for explaining a process of updating a reference ECG signal set according to an embodiment in more detail.
FIG. 9 is a diagram illustrating a configuration of an electrocardiogram signal authentication apparatus according to an embodiment.

Specific structural or functional descriptions of embodiments are set forth for illustration purposes only and may be embodied with various changes and modifications. Accordingly, the embodiments are not intended to be limited to the specific forms disclosed, and the scope of the disclosure includes changes, equivalents, or alternatives included in the technical idea.

The terms first or second, etc. may be used to describe various elements, but such terms should be interpreted solely for the purpose of distinguishing one element from another. For example, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

It is to be understood that when an element is referred to as being "connected" to another element, it may be directly connected or connected to the other element, although other elements may be present in between.

The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises ", or" having ", and the like, are used to specify one or more of the described features, numbers, steps, operations, elements, But do not preclude the presence or addition of steps, operations, elements, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning of the context in the relevant art and, unless explicitly defined herein, are to be interpreted as ideal or overly formal Do not.

The embodiments described below can be used to recognize a fingerprint of a user. Hereinafter, the operation of recognizing the user's fingerprint may include an operation of authenticating or identifying the user. The act of authenticating the user may include, for example, determining whether the user is an already registered user. In this case, the result of the operation of authenticating the user may be output as true or false. The operation of identifying a user may include, for example, an operation of determining which user of the plurality of users the user is registered with. In this case, the result of the operation of identifying the user may be output as the ID of any one of the pre-registered users. If the user does not correspond to any of the plurality of pre-registered users, a signal indicating that the user is not identified may be output.

Embodiments may be implemented in various forms of products, such as personal computers, laptop computers, tablet computers, smart phones, televisions, smart home appliances, intelligent cars, kiosks, wearable devices, For example, embodiments may be applied to authenticating users in smart phones, mobile devices, smart home systems, and the like. Embodiments can be applied to a payment service through user authentication. In addition, the embodiments can be applied to an intelligent automobile system that automatically authenticates a user and starts up. Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

1 is a diagram for explaining a process of updating authentication reference information according to an embodiment.

Referring to FIG. 1, an electrocardiogram signal authentication apparatus 100 and authentication reference information 110 are shown. The electrocardiogram signal authentication apparatus 100 is an apparatus for performing electrocardiogram signal authentication, and authenticates an electrocardiogram signal input to the electrocardiogram signal authentication apparatus 100 and outputs an electrocardiogram signal authentication result. Hereinafter, the electrocardiogram signal input to the electrocardiogram signal authentication device 100 will be described as a first electrocardiogram signal in order to distinguish it from other electrocardiogram signals.

According to one embodiment, the electrocardiogram signal authentication device 100 may be a mobile phone, a cellular phone, a smart phone, a personal computer, a laptop, a notebook, a netbook or tablet, a personal digital assistant (PDA) , An MP3 player, a personal multimedia player (PMP), an E-Book, a navigation device, a disc player, a set top box, a home appliance, a communication device, a display device, Embedded or may interact with them. In addition, the speech recognition device may be embedded in or interoperate with a smart home appliance, an intelligent vehicle, an autonomous mobile device, a smart home environment, a smart building environment, a smart office environment, a smart electronic security system, or the like. In addition, the electrocardiogram signal authentication device can be included in a wearable device worn on the body of the user, and can operate and cope with the wearable device. A wearable device can take the form of, for example, a ring, a watch, a pair of glasses, a bracelet, a belt, a band, a necklace, an earring, a helmet or clothes.

The authentication reference information 110 is information that the electrocardiogram signal authentication apparatus 100 refers to when authenticating the first electrocardiogram signal. For example, the authentication reference information 110 may include an electrocardiogram signal initially registered by the user, an electrocardiogram signal And the like. The electrocardiogram signal authentication apparatus 100 can authenticate the first electrocardiogram signal by comparing the inputted electrocardiogram signal with the authentication reference information 110. [

The authentication reference information 110 may comprise a set of reference electrocardiogram signals. The reference electrocardiogram signal is an electrocardiogram signal which is compared with the first electrocardiogram signal by the electrocardiogram signal authentication apparatus 100 for authentication of the electrocardiogram signal. For example, the reference electrocardiogram signal may include an electrocardiogram signal initially registered by the user. Hereinafter, the reference electrocardiogram signal is described as a second electrocardiogram signal in order to distinguish it from other electrocardiographic signals.

The electrocardiogram signal authentication apparatus 100 may store the second electrocardiogram signal in the reference electrocardiogram signal set in a proper form such as a feature vector form or a key point form extracted from the second electrocardiogram signal. For example, the electrocardiogram signal authentication apparatus 100 can extract a feature vector by processing an electrocardiogram signal measured by a user for use as a second electrocardiogram signal. The electrocardiogram signal authentication device 100 can perform filtering, key point extraction, segmentation, and the like on the electrocardiogram signal. Then, the electrocardiogram signal authentication apparatus 100 can extract a feature vector using, for example, a training neural network.

The electrocardiogram signal authentication apparatus 100 can identify the first electrocardiogram signal measured by the user. For example, the electrocardiogram signal authentication device 100 can identify the first electrocardiogram signal through the built-in sensor or identify the first electrocardiogram signal through another device or the like. The electrocardiogram signal authentication apparatus 100 may identify the first electrocardiogram signal measured by the user through other suitable methods.

In addition, the electrocardiogram signal authentication apparatus 100 can identify the first electrocardiogram signal measured by the user in response to an operation requiring authentication of the electrocardiogram signal. For example, an operation requiring electrocardiogram signal authentication may include unlocking a screen, proceeding with a payment, and opening an encrypted file.

Then, the electrocardiogram signal authentication apparatus 100 can compare the first electrocardiogram signal with the second electrocardiogram signal and authenticate the same. For example, the electrocardiogram signal authentication apparatus 100 may determine the degree of similarity between the first electrocardiogram signal and the second electrocardiogram signal to determine whether the first electrocardiogram signal is successful in authentication. The electrocardiogram signal authentication apparatus 100 can determine whether the first electrocardiogram signal is a signal measured from the same user according to the degree of similarity between the first electrocardiogram signal and the second electrocardiogram signal.

ECG signal authentication is relatively difficult to counterfeit than facial recognition, fingerprint recognition, and speech recognition. However, even if an electrocardiogram signal is acquired from the same user, the electrocardiogram signal can be changed according to the state of the user. For example, an electrocardiogram signal before and after exercise, an electrocardiogram signal before and after a meal, and an electrocardiogram signal before and after a mood change may vary widely.

A user in a specific state may register one second electrocardiogram signal to the electrocardiogram signal authentication apparatus 100 to use the electrocardiogram signal authentication. Then, the electrocardiogram signal authentication device 100 can authenticate the first electrocardiogram signal of various states of the user through a plurality of electrocardiogram signal authentication. The electrocardiogram signal authentication apparatus 100 can update authentication reference information using a plurality of first electrocardiogram signals that have been successfully authenticated.

The electrocardiogram signal authentication apparatus 100 may set the first electrocardiogram signal that has been successfully authenticated as the third electrocardiogram signal and add it to the authentication electrocardiogram signal set. Here, the third electrocardiogram signal is an electrocardiogram signal that has been successfully authenticated. The authentication ECG signal set is a set of third electrocardiogram signals. The set of certified ECG signals may be used to update the authentication reference information.

The electrocardiogram signal authentication apparatus 100 may update the reference electrocardiogram signal set using the electrocardiogram signals included in the reference electrocardiogram signal set and the authentication electrocardiogram signal set. The electrocardiogram signal authentication apparatus 100 may filter the third electrocardiogram signal included in the authentication electrocardiogram signal set and set it as the second electrocardiogram signal. Then, the electrocardiogram signal authentication apparatus 100 can add the set second electrocardiogram signal to the reference electrocardiogram signal set. The electrocardiogram signal authentication apparatus 100 may also remove some of the second electrocardiogram signals included in the reference electrocardiogram signal set.

The electrocardiogram signal authentication apparatus 100 can accumulate and update the reference ECG signal set. Then, the ECG signal authentication accuracy of the electrocardiogram signal authentication device 100 can be enhanced. In addition, the electrocardiogram signal authentication apparatus 100 can authenticate the first electrocardiogram signal identified in various states of the user.

2 is a diagram for explaining a first electrocardiogram signal and a second electrocardiogram signal according to an embodiment.

Referring to FIG. 2, a first electrocardiogram signal 210 and a second electrocardiogram signal 220 are shown. The electrocardiogram signal authentication apparatus 100 can identify the first electrocardiogram signal 210 measured by the user for authentication of the electrocardiogram signal of the user. Then, the electrocardiogram signal authentication apparatus 100 can authenticate the first electrocardiogram signal using the reference electrocardiogram signal set including the second electrocardiogram signal 220. When a user registers one second electrocardiogram signal 220 and authenticates the first electrocardiogram signal, the set of electrocardiogram signals may include one second electrocardiogram signal 220.

As shown in the figure, the difference between the first electrocardiogram signal 210 and the second electrocardiogram signal 220 may be large even if the same user identifies the electrocardiogram signal. For example, a user may register a second electrocardiogram signal 220 before exercise. Then, the electrocardiogram signal authentication device 100 can identify the first electrocardiogram signal 210 from the user after the exercise. In this case, the electrocardiogram signal authentication apparatus 100 may recognize the first electrocardiogram signal 210 and the second electrocardiogram signal 220 as electrocardiogram signals of different users.

The electrocardiogram signal authentication apparatus 100 can update the reference electrocardiogram signal set through a plurality of electrocardiogram signal authentication. The reference ECG signal set may then include one or more second electrocardiogram signals in addition to the illustrated second electrocardiogram signal 220. The electrocardiogram signal authentication apparatus 100 can authenticate the first electrocardiogram signal 210 by comparing the second electrocardiogram signal included in the reference electrocardiogram signal set with the first electrocardiogram signal 210. [

For example, the electrocardiogram signal authentication apparatus 100 can determine the degree of similarity between the second electrocardiogram signal and the first electrocardiogram signal 210. The electrocardiogram signal authentication apparatus 100 can determine that the first electrocardiogram signal 210 is successfully authenticated if the determined similarity is equal to or greater than the authentication threshold value. The authentication threshold value may be a threshold value of similarity for the first electrocardiogram signal 210 to be successfully authenticated, for example, a predetermined value, or a value determined based on the reference ECG signal set by the electrocardiogram signal authentication apparatus 100 .

Hereinafter, the process of updating the authentication reference information used by the electrocardiogram signal authentication device 100 for authenticating an electrocardiogram signal will be described in more detail.

3 is a flow diagram illustrating the operation of a method for updating authentication reference information in accordance with one embodiment.

The method of updating the authentication reference information may be performed by the electrocardiogram signal authentication apparatus 100. [ Further, although not shown in the drawings, the method of updating the authentication reference information may be driven by the processor included in the electrocardiogram signal authentication apparatus 100. [ Here, the processor may be implemented as a module on an ad, or various combinations thereof.

Referring to FIG. 2, in step 310, the electrocardiograph signal authentication apparatus 100 identifies a first electrocardiogram signal measured by a user for authenticating a user's electrocardiogram signal. For example, the electrocardiogram signal authentication apparatus 100 can identify a first electrocardiogram signal measured by a user through an embedded sensor or other device.

In step 320, the electrocardiogram signal authentication apparatus 100 can authenticate the first electrocardiogram signal using the reference electrocardiogram signal set including the second electrocardiogram signal to be compared with the first electrocardiogram signal. The electrocardiogram signal authentication apparatus 100 can provide a result of whether or not the first electrocardiogram signal is successfully authenticated.

The reference ECG signal set may comprise one or more second electrocardiogram signals. For example, the reference ECG signal set may include a second electrocardiogram signal that the user first registers. The electrocardiogram signal authentication apparatus 100 may add or remove the second electrocardiogram signal included in the electrocardiogram signal set through the update according to an embodiment.

For example, the electrocardiogram signal authentication apparatus 100 can determine the degree of similarity between each of the second electrocardiogram signals included in the reference electrocardiogram signal set and the first electrocardiogram signal. The electrocardiogram signal authentication apparatus 100 can extract the feature vector of the first electrocardiogram signal and determine the degree of similarity with the feature vector of the second electrocardiogram signal. The electrocardiogram signal authentication apparatus 100 can compare the determined similarity with the authentication threshold value to determine whether or not the first electrocardiogram signal is successfully authenticated. The electrocardiogram signal apparatus 100 can verify the first electrocardiogram signal by comparing the sum, average value, maximum value, or minimum value of the determined similarity with an authentication threshold value. For example, when the maximum value of the similarity degree is larger than the authentication threshold value, the electrocardiogram signal authentication apparatus 100 can determine that the first electrocardiogram signal is successfully authenticated.

The electrocardiogram signal authentication apparatus 100 can determine the degree of similarity between the second electrocardiogram signal and the first electrocardiogram signal by using various methods. For example, the electrocardiogram signal authentication apparatus 100 may be configured to calculate the ECG signal using a cosine distance, a cosine similarity, a Pearson correlation coefficient, an Euclid distance, a Minkowski distance, A Mahalanobis distance or the like can be used to determine the degree of similarity between the second heartbeat signal and the first electrocardiogram signal.

The electrocardiogram signal authentication apparatus 100 can calculate the authentication threshold based on the reference ECG signal set. For example, the electrocardiogram signal authentication apparatus 100 may be configured to determine whether the number of the second electrocardiogram signals included in the reference electrocardiogram signal set is at least one of a minimum value among the similarities between the second electrocardiogram signals, The authentication threshold value can be determined based on the authentication threshold value. Then, the electrocardiogram signal authentication apparatus 100 can recalculate the authentication threshold value each time the reference electrocardiogram signal set is updated.

For example, the electrocardiogram signal authentication apparatus 100 can calculate the authentication threshold value using Equation (1).

In Equation (1), Thre means an authentication threshold value. F is a vector representing the state of the reference ECG signal set. F denotes at least one of the number of second electrocardiogram signals included in the reference electrocardiogram signal set, the minimum value of the similarity between the second electrocardiogram signals, the average value of the similarities between the second electrocardiogram signals, or the maximum value of the similarities between the second electrocardiogram signals .

p is the empirical coefficient. p may be obtained using a plurality of different training data pairs. Here, each of the training data pairs includes a corresponding authentication threshold value when F and a false rejection rate according to the reference ECG signal set are preset values. The false rejection rate means the probability that the first electrocardiogram signal of the same user fails authentication. For example, each training data pair may include a corresponding authentication threshold when F and false rejection rate is 5%. The electrocardiogram signal authentication apparatus 100 can acquire p by using a method such as linear regression.

The electrocardiogram signal authentication apparatus 100 can calculate the similarity degree of each of the first electrocardiogram signal and the second electrocardiogram signal included in the reference electrocardiogram signal set. Then, the electrocardiogram signal authentication apparatus 100 can determine whether the first electrocardiogram signal is successfully authenticated by comparing the calculated similarity with the authentication threshold value. For example, there may be a second electrocardiogram signal measured in the user's stationary state in the reference electrocardiogram signal set. In this case, the electrocardiogram signal authentication apparatus 100 can calculate the authentication threshold value using the second electrocardiogram signal measured in the stationary state, without calculating the authentication threshold value in the dynamic state of the user. In addition, the authentication threshold value may be a predetermined value.

In step 330, when the first electrocardiogram signal is successfully authenticated, the electrocardiogram signal authentication device 100 sets the first electrocardiogram signal that has been successfully authenticated as the third electrocardiogram signal, and adds the same to the authenticated electrocardiogram signal set. The electrocardiogram signal authentication apparatus 100 may add the first successfully authenticated first electrocardiogram signal to the authenticated electrocardiogram signal set in the form of a feature vector. If the ECG signal authentication is performed several times, the number of the third electrocardiogram signals included in the authentication ECG signal set can be increased.

In step 340, the electrocardiogram signal authentication apparatus 100 sets the third electrocardiogram signal included in the certified electrocardiogram signal set as the second electrocardiogram signal based on the reference electrocardiogram signal set and the authenticated electrocardiogram signal set to set the reference electrocardiogram signal set You can update it.

The electrocardiogram signal authentication apparatus 100 can update the reference electrocardiogram signal set when a predetermined condition is satisfied. For example, when the number of the third electrocardiogram signals included in the authentication ECG signal set is equal to or greater than the update threshold value, the ECG signal authentication apparatus 100 can update the reference ECG signal set. The update threshold is a minimum value of the number of third electrocardiogram signals for updating the reference ECG signal set. The electrocardiogram signal authentication apparatus 100 can update the reference ECG signal set when the third electrocardiogram signal is accumulated in the authentication ECG signal set.

The electrocardiogram signal authentication apparatus 100 may set some or all of the third electrocardiogram signals included in the authentication electrocardiogram signal set as the second electrocardiogram signal. Also, the electrocardiogram signal authentication apparatus 100 may not set the third electrocardiogram signal included in the authentication electrocardiogram signal set as the second electrocardiogram signal. The electrocardiogram signal authentication apparatus 100 can determine whether to set the third electrocardiogram signal as the second electrocardiogram signal using the similarity of each of the signals included in the reference electrocardiogram signal set and the authentication electrocardiogram signal set.

The electrocardiogram signal authentication apparatus 100 may add the newly set second electrocardiogram signal to the reference electrocardiogram signal set. The electrocardiogram signal authentication apparatus 100 may also remove some of the second electrocardiogram signals included in the reference electrocardiogram signal set. Then, the electrocardiogram signal authentication apparatus 100 can update the authentication threshold value based on the updated reference electrocardiogram signal set.

In one embodiment, the electrocardiogram signal authentication device 100 may group the second electrocardiogram signal and the third electrocardiogram signal based on the similarity of each of the signals included in the reference electrocardiogram signal set and the authentication electrocardiogram signal set. The electrocardiogram signal authentication apparatus 100 may add a third electrocardiogram signal included in the same group as the second electrocardiogram signal to the reference electrocardiogram signal set as a second electrocardiogram signal based on the grouping result.

In another embodiment, the electrocardiogram signal authentication apparatus 100 may determine the similarity of each of the signals included in the reference ECG signal set and the authentication ECG signal set. The electrocardiogram signal authentication apparatus 100 may generate an undirected graph for the second electrocardiogram signal and the third electrocardiogram signal using the determined degree of similarity. The electrocardiogram signal authentication apparatus 100 can apply the minimum cut to the undirected graph based on the determined similarity. The electrocardiogram signal authentication apparatus 100 may add a third electrocardiogram signal that is connected to the second electrocardiogram signal to a reference electrocardiogram signal set by setting the second electrocardiogram signal after applying the minimum cutting.

Embodiments in which the electrocardiogram signal authentication apparatus 100 updates the reference ECG signal set will be described in more detail with reference to FIGS.

FIG. 4 is a flowchart illustrating a process of updating a reference ECG signal set according to an exemplary embodiment of the present invention.

Referring to FIG. 4, step 340 may include steps 410-430. In step 410, the electrocardiogram signal authentication apparatus 100 may determine the similarity between each second electrocardiogram signal included in the reference electrocardiogram signal set and each third electrocardiogram signal included in the authentication electrocardiogram signal set. For example, with respect to one second electrocardiogram signal, the electrocardiogram signal authentication apparatus 100 can determine the degree of similarity with the remaining second electrocardiogram signal and the degree of similarity with the third electrocardiogram signal. Similarly, for one third electrocardiogram signal, the electrocardiogram signal authentication apparatus 100 can determine the degree of similarity to the remaining third electrocardiogram signal and the degree of similarity to the second electrocardiogram signal.

In step 420, the electrocardiogram signal authentication apparatus 100 can group the third electrocardiogram signal based on the determined degree of similarity. The electrocardiogram signal authentication apparatus 100 may group the second electrocardiogram signal and the third electrocardiogram signal into one or a plurality of groups.

The electrocardiogram signal authentication apparatus 100 may group the third electrocardiogram signals having a degree of similarity to the second electrocardiogram signal equal to or greater than the first grouping threshold value into the first group. The first group is a group including a third electrocardiogram signal having a high degree of similarity to the second electrocardiogram signal and the second electrocardiogram signal. The first grouping threshold is a criterion for determining the third electrocardiogram signal to be included in the first group. The first grouping threshold may be a predetermined value. Alternatively, the electrocardiogram signal authentication apparatus 100 can set the first grouping threshold value based on the determined degree of similarity. For example, the first grouping threshold value can be determined using the similarity of the third electrocardiogram signal having a high degree of similarity to the second electrocardiogram signal among the third electrocardiogram signals. The third electrocardiogram signal and the second electrocardiogram signal included in the first group may be electrocardiogram signals measured in similar states.

The electrocardiogram signal authentication apparatus 100 may group the third electrocardiogram signals having a degree of similarity to the second electrocardiogram signal below the first grouping threshold and a degree of similarity between the third electrocardiographs equal to or greater than the second grouping threshold value into a second group . And the second group is a group including a third electrocardiogram signal having a degree of similarity to the second electrocardiogram signal lower than the first grouping and a degree of similarity between the third electrocardiogram signals. The second grouping threshold is a criterion for determining the third electrocardiogram signal to be included in the second group. The second grouping threshold may be a preset value. Alternatively, the electrocardiogram signal authentication apparatus 100 can determine the second grouping threshold value based on the determined degree of similarity. For example, the second grouping threshold may be determined based on the degree of similarity between the third electrocardiogram signals. The third electrocardiogram signal included in the second group may be an electrocardiogram signal measured in other states than the second electrocardiogram signal. The electrocardiogram signal authentication apparatus 100 may group the second group together with the first group.

The electrocardiogram signal authentication apparatus 100 may group the third electrocardiogram signals not included in the first group and the second group into the third group. The third group is a group including a third electrocardiogram signal in which the degree of similarity with the second electrocardiogram signal is lower than that of the first group and the degree of similarity between the third electrocardiogram signals is lower than that of the second group. The third electrocardiogram signal included in the third group may be another user's signal or a signal measured in a different state from the electrocardiogram signals included in the first group and the second group.

In step 430, the electrocardiogram signal authentication apparatus 100 sets a third electrocardiogram signal included in the same group as the second electrocardiogram signal as a second electrocardiogram signal based on the grouping result, and refers to the set second electrocardiogram signal It can be added to the ECG signal set. When the third electrocardiogram signal is grouped into the first group, the second group, and the third group, the electrocardiogram signal authentication apparatus 100 may set the third electrocardiogram signal included in the first group to the second electrocardiogram signal. Also, the electrocardiogram signal authentication apparatus 100 may set all of the third electrocardiogram signals included in the first group and the second group as the second electrocardiogram signal. Then, the electrocardiogram signal authentication apparatus 100 can add the newly set second electrocardiogram signal to the reference electrocardiogram signal set. The electrocardiogram signal authentication apparatus 100 may also remove some of the second electrocardiogram signals included in the reference electrocardiogram signal set. This will be described in detail in Fig.

5 is a diagram for explaining a process of updating a reference ECG signal set according to an embodiment.

5, the second electrocardiogram signals 510-1 to 510-3, the third electrocardiogram signals 520-1 to 520-5, the reference electrocardiogram signal set 510, the authentication electrocardiogram signal set 520, A first group 521, a second group 522, and a third group 523 are shown. And the connection line between the second electrocardiogram signal and the third electrocardiogram indicates the degree of similarity between the connected signals. The solid line and the dotted line indicate the degree of similarity. In Fig. 5, the similarity of the connecting lines indicated by the solid lines is higher than the similarity of the connecting lines indicated by the dotted lines.

Although a total of eight signals are shown in Fig. 5, this is merely an illustrative example, and in one embodiment the electrocardiogram signal may be eight or more or eight or less. Of the third electrocardiogram signals 520-1 through 520-5 included in the authentication ECG signal set 520, the third ECG signals 520-4 are grouped in the first group 521. [ The third electrocardiogram signals 520-1 to 520-3 are grouped in the second group 522 and the third electrocardiogram signal 520-5 is grouped in the third group 523. The electrocardiogram signal authentication apparatus 100 can determine a third electrocardiogram signal to be set as the second electrocardiogram signal among the grouped third electrocardiogram signals.

The third electrocardiogram signals 520-1 through 520-3 have similarities to the second electrocardiogram signals 510-1 through 510-3 and the similarity between the third electrocardiogram signals 520-1 through 520-3 high. The third electrocardiogram signal is an electrocardiogram signal having a degree of similarity to other third electrocardiogram signals. The third electrocardiogram signals 520-1 to 520-3 may be electrocardiogram signals measured by the same user but may be electrocardiogram signals measured by a user different from the second electrocardiogram signals 510-1 to 510-3.

The third electrocardiogram signal 520-4 is an electrocardiogram signal having a high similarity to the second electrocardiogram signal 510-2 and a low degree of similarity to the second electrocardiogram signal 510-3. The third electrocardiogram signal 520-4 may be an electrocardiogram signal measured from a user in the same or similar state as the second electrocardiogram signal 510-2.

The third electrocardiogram signal 520-5 is an electrocardiogram signal having a similarity to the second electrocardiogram signals 510-1 to 510-3 and a similarity to the third electrocardiogram signals 520-1 to 520-4. The third electrocardiogram signal 520-5 may be an electrocardiogram signal of another user or the second electrocardiogram signals 510-1 to 510-3 and the third electrocardiogram signals 520-1 to 520-4 may be different from the user It may be a measured signal.

The electrocardiogram signal authentication apparatus 100 can set the third electrocardiogram signal 520-4 as the second electrocardiogram signal. Then, the electrocardiogram signal authentication device 100 can remove the third electrocardiogram signals 520-1 to 520-3 and 520-5 from the authentication ECG signal set. Then, the electrocardiogram signal authentication apparatus 100 can authenticate the first electrocardiogram signal using the third electrocardiogram signal 520-4 and the second electrocardiogram signals 510-1 through 510-3. Then, the first electrocardiogram signal that has been successfully authenticated can be set as the third electrocardiogram signal.

Alternatively, the electrocardiogram signal authentication device 100 may set the third electrocardiogram signals 520-1 to 520-4 as the second electrocardiogram signal. Then, the electrocardiogram signal authentication device 100 can remove the third electrocardiogram signal 520-5 from the authentication ECG signal set. Then, the electrocardiogram signal authentication apparatus 100 can authenticate the first electrocardiogram signal using the third electrocardiogram signals 520-1 through 520-4 and the second electrocardiogram signals 510-1 through 510-3. Then, the first electrocardiogram signal that has been successfully authenticated can be set as the third electrocardiogram signal.

6 is a flowchart illustrating a process of updating a reference ECG signal set according to another embodiment.

Referring to FIG. 6, step 340 may include steps 610 - 660. In step 610, the electrocardiogram signal authentication apparatus 100 can determine the similarity between each second electrocardiogram signal included in the reference electrocardiogram signal set and each third electrocardiogram signal included in the authentication electrocardiogram signal set. The electrocardiogram signal authentication apparatus 100 can determine the degree of similarity in the same manner as the step 410.

In step 620, the electrocardiogram signal authentication device 100 may generate an undirected graph for the second electrocardiogram signal and the third electrocardiogram signal based on the determined degree of similarity. The omnipresent graph is a graph that provides information on the relationship between the second electrocardiogram signal and the third electrocardiogram signal. For example, the undirected graph may include a second electrocardiogram signal and a third electrocardiogram signal as a single point, and a connection line connecting two different points. Here, each connection line may include the similarity between two connected electrocardiogram signals as weights. For example, a weight of a connection line connecting two second electrocardiogram signals may correspond to a degree of similarity between two second electrocardiogram signals. The weight of the connection line connecting one of the second electrocardiogram signal and one of the third electrocardiogram signals may correspond to the similarity between the two electrocardiogram signals.

The electrocardiogram signal authentication apparatus 100 can simplify the undirected graph by removing some connection lines. For example, the electrocardiogram signal authentication apparatus 100 can eliminate connection lines having a degree of similarity smaller than the simplified threshold value. The simplification threshold value may be the similarity threshold value of the connection line to be removed for simplification of the omnidirectional graph, for example, equal to the authentication threshold value. The electrocardiogram signal authentication apparatus 100 may set the weights of the connection lines connecting the second electrocardiogram signals so that the connection lines of the reference electrocardiogram signal set are not removed. For example, the electrocardiogram signal authentication apparatus 100 may set the weights of the connection lines connecting the second electrocardiogram signals to a constant value equal to or greater than 1.

Then, the electrocardiogram signal authentication apparatus 100 can hold K connection lines with high similarity among the connection lines for one arbitrary third electrocardiogram signal. Then, the electrocardiogram signal authentication apparatus 100 can remove the connection lines except for the reserved connection line. K is a predetermined value and is an integer greater than zero.

In step 630, the electrocardiogram signal authentication apparatus 100 may group the second electrocardiogram signal and the third electrocardiogram signal into two groups by applying a minimum cut based on the determined degree of similarity to the undirected graph. The minimum cutting is the cutting of the connecting line to minimize the sum of the weights of the connecting lines to be cut. For example, the electrocardiogram signal authentication apparatus 100 can apply a minimum disconnection using a Stoer-Wagner algorithm. When the minimum cutting is applied, the second electrocardiogram signal and the third electrocardiogram signal of the undirected graph are grouped into two groups. After the minimum cut has been applied, all of the second electrocardiogram signals can be included in one group. Electrocardiogram signals included in each group can be connected to each other.

Specifically, when the second electrocardiogram signal and the third electrocardiogram signal of the omnidirectional graph are all connected, the electrocardiogram signal authentication apparatus 100 can apply the minimum cutting to the entire omnidirectional graph. When the second electrocardiogram signal and the third electrocardiogram signal are not all connected, the electrocardiogram signal authentication apparatus 100 may apply the minimum cut to the second electrocardiogram signal and the third electrocardiogram signal connected to the second electrocardiogram signal. In other words, the electrocardiogram signal authentication apparatus 100 can apply the minimum cut to the group including the second electrocardiogram signal.

The electrocardiogram signal authentication apparatus 100 can apply the minimum cutting to the undirected graph until the number of times the minimum cutting is applied becomes the cutting threshold value. The cutting threshold may be a predetermined number of times to apply the minimum cutting.

In step 640, the electrocardiogram signal authentication apparatus 100 may determine whether the third electrocardiogram signal is included in the group including the second electrocardiogram signal. If the third electrocardiogram signal is not included in the group including the second electrocardiogram signal, the electrocardiogram signal authentication apparatus 100 may not update the reference electrocardiogram signal set. Then, the electrocardiogram signal authentication device 100 can delete all of the third electrocardiogram signals of the authentication ECG signal set.

If the third electrocardiogram signal is included in the group including the second electrocardiogram signal, the electrocardiogram signal authentication device 100 performs step 650. [ In step 650, the electrocardiogram signal authentication apparatus 100 can determine whether the number of times of applying the minimum disconnection is less than the disconnection threshold value. If the number of times the minimum cutting is applied is less than the cutting threshold value, the electrocardiogram signal authentication apparatus 100 performs step 630. [ Then, the electrocardiogram signal authentication apparatus 100 applies the minimum cutting to the group including the second electrocardiogram signal.

If the number of times the minimum cutting is applied is not less than the cutting threshold, the electrocardiogram signal authentication device 100 performs step 660. [ In step 660, the electrocardiogram signal authentication apparatus 100 may set the third electrocardiogram signal of the group including the second electrocardiogram signal as the second electrocardiogram signal. In other words, the electrocardiogram signal authentication apparatus 100 may apply a minimum cut to the undirected graph the same number of times as the cut-off threshold, and set the third electrocardiogram signal connected to the second electrocardiogram signal as the second electrocardiogram signal. The electrocardiogram signal authentication apparatus 100 may average the third electrocardiogram signal of the group including the second electrocardiogram signal to set it as the second electrocardiogram signal.

The electrocardiogram signal authentication apparatus 100 may add the newly set second electrocardiogram signal to the reference electrocardiogram signal set. The electrocardiogram signal authentication apparatus 100 may also remove some of the second electrocardiogram signals included in the reference electrocardiogram signal set. This will be described in detail in Fig.

7 is a diagram for explaining a process of updating a reference ECG signal set according to another embodiment.

7, the second electrocardiogram signals 710-1 to 701-3, the third electrocardiogram signals 720-1 to 720-5, the reference electrocardiogram signal set 710, the authentication electrocardiogram signal set 720, The last minimal cut 730 is shown. FIG. 7 shows a second electrocardiogram signal, a third electrocardiogram signal, and a connecting line. Although a total of eight signals are shown in FIG. 7, this is merely an example for illustration, and in one embodiment the electrocardiogram signal may be eight or more or eight or less. Each connection line weights the similarity between the two electrocardiogram signals that the connection connects. The solid and dotted lines indicate the degree of similarity. In Fig. 7, the similarity of the connecting line indicated by the solid line is higher than the similarity of the connecting line indicated by the dotted line.

7, the third electrocardiogram signals 720-1 to 720-3 have a low degree of similarity to the second electrocardiogram signals 710-1 to 701-3, and the third electrocardiogram signals 720-1 to 720- 3) The degree of similarity between each other is high. The third electrocardiogram signals 720-1 through 720-3 are electrocardiogram signals measured by the same user but may be signals measured by a user different from the second electrocardiogram signals 710-1 through 710-3.

The third electrocardiogram signal 720-4 is an electrocardiogram signal having a high degree of similarity to the second electrocardiogram signal 710-2 and a low degree of similarity to the second electrocardiogram signal 710-3. The third electrocardiogram signal 720-4 is an electrocardiogram signal having a lower degree of similarity to the other third electrocardiogram signals 720-1, 720-2, 720-3, and 720-5. The third electrocardiogram signal 720-4 may be an electrocardiogram signal measured from a user in the same or similar state as the second electrocardiogram signal 710-2.

The third electrocardiogram signal 720-5 is an electrocardiogram signal having a degree of similarity to the second electrocardiogram signals 710-1 to 710-3 and a degree of similarity to the third electrocardiogram signals 720-1 to 720-4. The third electrocardiogram signal 720-5 may be an electrocardiogram signal of another user or may be different from the second electrocardiogram signals 710-1 to 710-3 and the third electrocardiogram signals 720-1 to 720-4 It may be a measured signal.

The last minimal cut (730) represents the minimum cut when the number of times the minimum cut is applied is the cut threshold. For example, if the cutting threshold is 5, the last minimum cut (730) represents the fifth minimum cut. The second electrocardiogram signal and the third electrocardiographic signal shown in accordance with the last minimum cut 730 are grouped into two groups. The electrocardiogram signal authentication apparatus 100 can set the third electrocardiogram signals 720-1 to 720-4 as the second electrocardiogram signal. Then, the electrocardiogram signal authentication apparatus 100 can add the newly set second electrocardiogram signal to the reference electrocardiogram signal set. The electrocardiogram signal authentication apparatus 100 can remove the third electrocardiogram signal 720-5.

Then, the electrocardiogram signal authentication apparatus 100 can verify the first electrocardiogram signal using the third electrocardiogram signals 720-1 to 720-4 and the second electrocardiogram signals 710-1 to 710-3. Then, the first electrocardiogram signal that has been successfully authenticated can be set as the third electrocardiogram signal.

8 is a diagram for explaining a process of updating a reference ECG signal set according to an embodiment in more detail.

In step 810, the electrocardiogram signal authentication apparatus 100 may set a third electrocardiogram signal included in the certified electrocardiogram signal set as a second electrocardiogram signal based on the reference electrocardiogram signal set and the authentication electrocardiogram signal set. The electrocardiogram signal authentication apparatus 100 may set the third electrocardiogram signal as the second electrocardiogram signal through the process described with reference to FIG. 4 or FIG.

In step 820, the electrocardiogram signal authentication apparatus 100 can determine whether the number of second electrocardiogram signals included in the reference electrocardiogram signal set is less than a removal threshold value. The elimination threshold is the maximum number of second electrocardiogram signals included in the reference ECG signal set. For example, when the elimination threshold value is 10, the electrocardiogram signal authentication apparatus 100 can judge whether the second electrocardiogram signal included in the reference electrocardiogram signal set is less than 10.

If the number of the second electrocardiogram signals included in the reference electrocardiogram signal set is less than the elimination threshold value, the electrocardiogram signal authentication apparatus 100 performs step 830. In step 830, the electrocardiograph signal authentication apparatus 100 may add the newly set second electrocardiogram signal to the reference electrocardiogram signal set.

If the number of the second electrocardiogram signals included in the reference electrocardiogram signal set is not less than the removal threshold value, the electrocardiogram signal authentication apparatus 100 performs step 840. [ In step 840, the electrocardiogram signal authentication apparatus 100 may remove a second electrocardiogram signal having a maximum sum of similarities between the second electrocardiogram signals for each of the second electrocardiogram signals. Specifically, the electrocardiogram signal authentication apparatus 100 can determine the sum of the degree of similarity between each second electrocardiogram signal and the second electrocardiogram signal. Then, the electrocardiogram signal authentication apparatus 100 can remove the second electrocardiogram signal having the largest sum of similarities. The electrocardiogram signal authentication apparatus 100 may have a second electrocardiogram signal corresponding to a more varied state of the user by reducing the degree of similarity between the second electrocardiographic signals in the reference electrocardiogram signal set.

FIG. 9 is a diagram illustrating a configuration of an electrocardiogram signal authentication apparatus according to an embodiment.

9, the electrocardiogram signal authentication apparatus 100 includes a processor 910 and a memory 920. [ The memory 920 stores one or more instructions executable by the processor 910. Processor 910 executes one or more instructions stored in memory 920. The processor 910 may execute one or more of the operations described above in connection with Figs. 1-9 by executing the instructions. The processor 910 updates the authentication reference information used for ECG signal authentication according to the instructions.

According to one embodiment, the processor 910 may identify a first electrocardiogram signal measured by a user for authenticating a user's electrocardiogram signal. Processor 910 may authenticate the first electrocardiogram signal using a set of reference electrocardiogram signals including a second electrocardiogram signal to be compared with the first electrocardiogram signal. If the first electrocardiogram signal is successfully authenticated, the processor 910 may add the authenticated first electrocardiogram signal as the third electrocardiogram signal to the authenticated electrocardiogram signal set. The processor 910 may then update the reference ECG signal set by setting the third electrocardiogram signal included in the certified ECG signal set as the second ECG signal based on the reference ECG signal set and the authentication ECG signal set.

The embodiments described above may be implemented in hardware components, software components, and / or a combination of hardware components and software components. For example, the devices, methods, and components described in the embodiments may be implemented within a computer system, such as, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, such as an array, a programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing unit may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software and / or data may be in the form of any type of machine, component, physical device, virtual equipment, computer storage media, or device , Or may be permanently or temporarily embodied in a transmitted signal wave. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored on one or more computer readable recording media.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

Although the embodiments have been described with reference to the drawings, various technical modifications and variations may be applied to those skilled in the art. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; RTI ID = 0.0 > and / or < / RTI > equivalents,

100: ECG signal authentication device
110: Authentication reference information

Claims (20)

A method for updating authentication reference information used for ECG signal authentication,
Identifying a first electrocardiogram signal measured by the user for authentication of a user's electrocardiogram signal;
Authenticating the first electrocardiogram signal using a reference electrocardiogram signal set including a second electrocardiogram signal to be compared with the first electrocardiogram signal;
Setting the first electrocardiogram signal succeeding the authentication as a third electrocardiogram signal and adding the first electrocardiogram signal to the authentication electrocardiogram signal set when the first electrocardiogram signal is successfully authenticated; And
Updating the reference electrocardiogram signal set by setting a third electrocardiogram signal included in the set of authenticating electrocardiogram signals as a second electrocardiogram signal based on the reference electrocardiogram signal set and the authentication ECG signal set
Gt; of the set of reference electrocardiogram signals.
The method according to claim 1,
Wherein the authenticating comprises:
Determining an authentication threshold value based on at least one of a degree of similarity between the second electrocardiogram signals and a number of the second electrocardiogram signals;
Determining a degree of similarity between the second electrocardiogram signal and the first electrocardiogram signal; And
Comparing the determined authentication threshold with the determined similarity, and authenticating the first electrocardiogram signal
Wherein the authentication reference information is updated.
The method according to claim 1,
Wherein the updating comprises:
When the number of the third electrocardiogram signals included in the authentication ECG signal set is equal to or greater than the update threshold value, the third electrocardiogram signal included in the authentication ECG signal set based on the reference ECG signal set and the authenticated ECG signal set, 2 electrocardiogram signal to add to the set of reference ECG signals.
The method according to claim 1,
Wherein the updating comprises:
Determining a degree of similarity between the second electrocardiogram signal and a third electrocardiogram signal included in the authentication ECG signal set;
Grouping the third electrocardiogram signal based on the determined degree of similarity; And
Setting a third electrocardiogram signal included in the same group as the second electrocardiogram signal as a second electrocardiogram signal based on the grouping result and adding the set second electrocardiogram signal to the reference electrocardiogram signal set
Wherein the authentication reference information is updated.
5. The method of claim 4,
Wherein the grouping comprises:
Grouping a third electrocardiogram signal having a degree of similarity to a second electrocardiogram signal equal to or greater than a first grouping threshold value into a first group,
Grouping a third electrocardiogram signal having a degree of similarity to a second electrocardiogram signal below a first grouping threshold value and a degree of similarity between third electrocardiogram signals to a second grouping threshold value or more to a second group,
And grouping third electrocardiogram signals that are not included in either the first group or the second group into a third group.
6. The method of claim 5,
Wherein the adding comprises:
And sets a third electrocardiogram signal included in the first group and the second group to a second reference electrocardiogram signal to add to the reference ECG signal set.
The method according to claim 1,
Wherein the updating comprises:
Determining a degree of similarity between the second electrocardiogram signal and a third electrocardiogram signal included in the authentication ECG signal set;
Generating an undirected graph for the second electrocardiogram signal and the third electrocardiogram signal based on the determined degree of similarity;
Grouping the second electrocardiogram signal and the third electrocardiogram signal into two groups by applying a minimum cut based on the determined degree of similarity to the generated undirected graph; And
Setting a third electrocardiogram signal of a group including the second electrocardiogram signal among the two groups as a second electrocardiogram signal and adding the third electrocardiogram signal to the reference electrocardiogram signal set;
Wherein the authentication reference information is updated.
8. The method of claim 7,
The method of claim 1,
And connects each of the second electrocardiogram signal and the third electrocardiogram signal via a connection line for which the determined degree of similarity is set to a weight.
9. The method of claim 8,
The method of claim 1,
And simplifying the omnidirectional graph by removing a connection line whose weight is not more than a simplified threshold value
Further comprising the step of:
The method according to claim 1,
Wherein the updating comprises:
Setting a third electrocardiogram signal included in the authentication ECG signal set as a second ECG signal based on the reference ECG signal set and the authentication ECG signal set; And
Determining a sum of similarities between the second electrocardiogram signals with respect to each of the second electrocardiogram signals when the number of second electrocardiogram signals included in the reference electrocardiogram signal set is equal to or greater than a removal threshold value, Removing the second electrocardiogram signal
Further comprising the step of:
10. A computer program stored on a medium for execution in accordance with any one of claims 1 to 10 in combination with hardware.
An electrocardiogram signal authentication apparatus for updating authentication reference information used for authentication of an electrocardiogram signal,
A processor; And
A memory for storing one or more instructions executable by the processor,
Lt; / RTI >
If the one or more instructions are executed by the processor,
Authenticating the first electrocardiogram signal using a reference electrocardiogram signal set including a first electrocardiogram signal that is measured by the user for authenticating a user's electrocardiogram signal and includes a second electrocardiogram signal to be compared with the first electrocardiogram signal, Wherein the first electrocardiogram signal is a first electrocardiogram signal and the second electrocardiogram signal is a first electrocardiogram signal and the first electrocardiogram signal is a first electrocardiogram signal, And sets the third electrocardiogram signal included in the electrocardiogram signal set as a second electrocardiogram signal to update the reference electrocardiogram signal set.
13. The method of claim 12,
The processor comprising:
Determining an authentication threshold value based on at least one of a degree of similarity between the second electrocardiogram signals and a number of the second electrocardiogram signals, and determining a similarity degree between the second electrocardiogram signal and the first electrocardiogram signal included in the reference electrocardiogram signal set And authenticates the first electrocardiogram signal by comparing the determined authentication threshold value with the determined similarity.
13. The method of claim 12,
The processor comprising:
Determining a degree of similarity between the second electrocardiogram signal and a third electrocardiogram signal included in the authentication ECG signal set, grouping the third electrocardiogram signal based on the determined degree of similarity, and based on the grouping result, Sets a third electrocardiogram signal included in the same group as the electrocardiogram signal as a second electrocardiogram signal, and adds the set second electrocardiogram signal to the reference electrocardiogram signal set.
13. The method of claim 12,
The processor comprising:
Grouping the third electrocardiogram signals whose similarities to the second electrocardiogram signal are equal to or greater than the first grouping threshold value into a first group and comparing the degree of similarity with the second electrocardiogram signal to less than the first grouping threshold value, Group the third electrocardiogram signals having a second grouping threshold value or more into a second group and group the third electrocardiogram signals not included in the first group and the second group into a third group.
17. The method of claim 16,
The processor comprising:
Sets a third electrocardiogram signal included in the first group and the second group as a second reference electrocardiogram signal, and adds the third reference electrocardiogram signal to the reference ECG signal set.
13. The method of claim 12,
The processor comprising:
Determining an similarity between the second electrocardiogram signal and a third electrocardiogram signal included in the authentication ECG signal set and determining an undirected graph of the second electrocardiogram signal and the third electrocardiogram signal based on the determined similarity, Grouping the second electrocardiogram signal and the third electrocardiogram signal into two groups by applying a minimum cut based on the determined degree of similarity to the generated undirected graph, And sets the third electrocardiogram signal of the group including the second electrocardiogram signal as the second electrocardiogram signal and adds the third electrocardiogram signal to the reference electrocardiogram signal set.
18. The method of claim 17,
The processor comprising:
And connects the second electrocardiogram signal and the third electrocardiogram signal through a connection line having the determined degree of similarity set to a weight value.
19. The method of claim 18,
The processor comprising:
And removing the connection line whose weight is not more than the simplified threshold value, thereby simplifying the omnidirectional graph.
13. The method of claim 12,
The processor comprising:
Sets a third electrocardiogram signal included in the authentication ECG signal set as a second ECG signal based on the reference ECG signal set and the authentication ECG signal set and sets the number of second electrocardiogram signals included in the reference ECG signal set to Determines a sum of similarities between the second electrocardiogram signals with respect to each of the second electrocardiogram signals, and removes a second electrocardiogram signal having a maximum sum of the determined similarities, if the difference is equal to or greater than a preset removal threshold value.

Images