KR101672599B1 - Biometric authentication device and method using Bluetooth Low Energy technique - Google Patents

Abstract

One embodiment of the present invention relates to a biometric authentication apparatus and method using the BLE technology, and a technical problem to be solved by the present invention is to provide a biometric authentication apparatus and a biometric authentication method that can improve a biometric authentication speed by using a BLE technology of a smart phone Apparatus and a method thereof.
To this end, the present invention provides a biometric reader having a first Bluetooth low energy (BLE) module; And a second BLE module communicating with the first BLE module, wherein the first BLE module scans the second BLE module, the second BLE module transmits a response signal to the first BLE module, and the biometric information recognition reader transmits a response Discloses a biometric authentication apparatus and method using BLE technology for acquiring biometric information corresponding to a signal and comparing the biometric information obtained by the biometric reader with the inputted biometric information and verifying the biometric information when the biometric information is input to the biometric identification reader .

Description

TECHNICAL FIELD The present invention relates to a biometric authentication device and method using the BLE technology,

One embodiment of the present invention relates to a biometric authentication apparatus using BLE technology and a method thereof.

For example, a fingerprint reader manufactured and manufactured by the present applicant requires approximately 512 bytes to store one fingerprint template and approximately 2,000 fingerprint comparisons per second. For businesses with over 2,000 employees, use 1: 1, ie card and fingerprint technology or ID (identification) & fingerprint technology. Therefore, the customer has the inconvenience of holding a card when he or she recognizes a fingerprint or pressing an ID.

In addition, when the use of a large number of personnel is requested, the memory of the fingerprint reader must be increased. This leads to an increase in the price of a fingerprint reader. There is also a technology for storing and loading a fingerprint template in a server, but this can be done only when used in combination with an ID or a card.

In this manner, the conventional fingerprint reader has a large amount of data, and the authentication speed is inevitably slowed when data of many people is stored. In addition, since a lot of data must be stored, memory must be increased.

One embodiment of the present invention provides a biometric authentication apparatus and method that can improve the speed of biometric authentication using BLE technology of a mobile communication device carried by many people.

A biometric authentication apparatus using BLE technology according to an embodiment of the present invention includes a biometric reader having a first Bluetooth low energy (BLE) module; And a mobile communication device having a second BLE module in communication with the first BLE module, wherein the first BLE module scans the second BLE module, the second BLE module transmits a response signal to the first BLE module, The biometric information recognition reader acquires biometric information corresponding to the response signal, and when the biometric information is input to the biometric identification reader, the biometric information reader compares the acquired biometric information with the input biometric information and verifies the same.

The mobile communication device may be a smart phone, a smart clock, or a smart tag.

The response signal may be transmitted from the second BLE module to the first BLE module if the first BLE module and the second BLE module are within 5 m.

The response signal may be a MAC address or identification of the mobile communication device.

The acquired biometric information may be stored in advance in the storage unit of the biometric reader by matching with the response signal.

The acquired biometric information may be stored in advance in the storage unit of the server connected to the biometric reader through a wired / wireless communication network, matching the response signal.

The biometric information may be a fingerprint, a vein, an iris, a long palm (palm), or a face.

A biometric identification method according to another embodiment of the present invention includes a step of scanning a second BLE of a mobile communication device by a first Bluetooth low energy module of a biometric reader; Determining whether the second BLE of the mobile communication device transmits a response signal to the first BLE of the biometric reader; The biometric reader acquiring biometric information corresponding to the response signal; Determining whether biometric information is input; And comparing and verifying the obtained biometric information with the input biometric information.

One embodiment of the present invention provides a biometric authentication apparatus and method that can improve the speed of biometric authentication using BLE technology of a mobile communication device carried by many people. For example, in the present invention, a BLE module installed in a smart phone first transmits a MAC (Media Access Control) address or an ID to a BLE module installed in the biometric reader, so that the biometric reader responds to a MAC address or an ID (Here, the MAC address or the biometric information corresponding to the ID is stored in advance in the storage unit). Then, when the user inputs the biometric information to the biometric reader, the biometric reader compares the previously obtained biometric information with the currently input biometric information and verifies them. Therefore, in the present invention, the biometric information corresponding to the MAC address or the ID previously stored can be quickly compared and verified with the currently inputted biometric information without performing a large amount of data comparison every authentication, thereby greatly improving the biometric authentication speed do. In addition, this configuration and operation of the present invention can be utilized not only for unlocking a door but also for various payment systems using a remote server.

FIG. 1 is a block diagram illustrating a configuration of a biometric authentication apparatus using BLE technology according to an embodiment of the present invention. Referring to FIG.
FIG. 2 is a block diagram illustrating the configuration of a biometric authentication apparatus using BLE technology according to another embodiment of the present invention.
3 is a flowchart illustrating a biometric authentication method using BLE technology according to another embodiment of the present invention.
4 is a flowchart illustrating a biometric authentication method using BLE technology according to another embodiment of the present invention.
FIG. 5A illustrates a conventional fingerprint search method, and FIG. 5B illustrates a fingerprint search method according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments of the present invention are described in order to more fully explain the present invention to those skilled in the art, and the following embodiments may be modified in various other forms, The present invention is not limited to the embodiment. Rather, these embodiments are provided so that this disclosure will be more faithful and complete, and will fully convey the scope of the invention to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the singular forms "a," "an," and "the" include singular forms unless the context clearly dictates otherwise. Also, " comprise "and / or" comprising "when used herein should be interpreted as specifying the presence of stated shapes, numbers, steps, operations, elements, elements, and / And does not preclude the presence or addition of one or more other features, integers, operations, elements, elements, and / or groups. Also, as used herein, the term "and / or" includes any and all combinations of any of the listed items.

Although the terms first, second, etc. are used herein to describe various elements, components, regions, layers and / or portions, these members, components, regions, layers and / It is obvious that no. These terms are only used to distinguish one member, component, region, layer or section from another region, layer or section. Thus, a first member, component, region, layer or section described below may refer to a second member, component, region, layer or section without departing from the teachings of the present invention.

Referring to FIG. 1, a configuration of a biometric authentication device 100 using BLE technology according to an embodiment of the present invention is shown as a block diagram.

As shown in FIG. 1, the biometric authentication device 100 using the BLE technology according to the present invention includes a biometric reader 110 and a mobile communication device 120.

The biometric reader 110 includes a first BLE (Bluetooth Low Energy) module 111 and also includes a separate storage unit 112. Here, the biometric reader 110 refers to a device that recognizes a person's fingerprint, vein, iris, long palm, or face. The biometric reader 110 includes an image capturing module such as a camera, an image processing module for processing a photographed image, a comparison module for comparing a previously stored image with a photographed image, and the like. Since the action is already well known, a more detailed description is omitted here. The storage unit 112 of the biometric reader 110 means a database in which biometric information (e.g., fingerprint, vein, iris, long face, or face) corresponding to a response signal to be used as a normal memory is stored do.

On the other hand, BLE is a technology that has been introduced since 4.0 in BLUETOUS 4.0, which means a technology that enables long-term short-range wireless connection using low power. This is the most important technology recently evaluated because of the wide variety of products that can be created using this technology due to the universalization of mobile communication devices. These BLEs use the frequency band of approximately 2.400 GHz to 2.4835 GHz for communication and have the standard specifications listed in Table 1 below.

Communication distance This is the number affected by the equipment, and the display distance varies from site to site. But on average, if there are no obstacles between the devices, there is no problem communicating at a distance of about 50 m. When there are human bodies or obstacles, the distance is significantly reduced. Communication speed 1 Mbit / s Application processing speed 0.27 Mbit / s security 128-bit AES with Counter Mode CBC-MAC Total data transfer time 3 ms Voice transmission no

The mobile communication device 120 also includes a second BLE module 121 for communicating with the first BLE module 111 described above. The mobile communication device 120 may be a smart phone, a smart clock, a smart tag, and / or the like, but the mobile communication device 120 is not limited in the present invention.

Here, in the case of a smart phone or a smart clock, since a BLE module is already installed in most cases, there is no need to newly install a BLE module in a smart phone or a smart clock in order to implement the present invention. That is, in order to implement the present invention, the first BLE module 111 capable of communicating with the second BLE module 121 is mounted on the biometric reader 110, and the software or the program for the operation thereof needs to be modified.

The first BLE module 111 and the second BLE module 121 may exchange information according to internationally standardized communication protocols, and the first BLE module 111 may scan the second BLE module 121 , The second BLE module 121 transmits a response signal to the first BLE module 111.

The response signal transmitted by the second BLE module 121 to the first BLE module 111 is substantially the same as that of the second BLE module 121 when the first BLE module 111 and the second BLE module 121 are within approximately 5 m To the first BLE module 111. The first BLE module 111 may be a first BLE module.

Also, the response signal may be a MAC address, ID, and / or equivalent of the mobile communication device 120 and / or the second BLE module 121, but the kind of the response signal is not limited in the present invention.

In addition, as described above, the biometric information may be stored in advance in the storage unit 112 of the biometric reader 110 to match the response signal.

The biometric authentication device 100 including the biometric reader 110 having the first BLE module 111 and the mobile communication device 120 having the second BLE module 121 communicating with the first BLE module 111, The following registration process should be preceded.

A MAC address of the second BLE module 121 of the mobile communication device 120 (for example, a smart phone) or an ID designated by the user is transmitted to the biometric reader 110 and stored.

Then, biometric information (for example, a fingerprint) of the holder who owns the mobile communication device 120 is stored. At this time, the biometric reader 110 stores the biometric information (fingerprint) matched with the response signal (MAC address or ID) in the storage unit 112 to complete the database. Here, the biometric information matched with the response signal may be transmitted to and stored in the storage unit 241 of the server 240.

The operation of the biometric authentication device 100 will be described.

First, the first BLE module 111 of the biometric reader 110 scans the second BLE module 121 of the mobile communication device 120.

As mentioned above, scanning is possible at distances up to 50 m without obstructions. When the scan is completed as described above, the second BLE module 121 of the mobile communication device 120 transmits a response signal to the first BLE module 111 of the biometric reader 110.

Then, the biometric information recognition reader 110 loads the biometric information corresponding to the response signal from the storage unit 112 and acquires the biometric information.

Then, when the biometric information by the user is input to the biometric reader 110, the biometric reader 110 compares the previously obtained biometric information with the currently input biometric information and verifies the same. That is, it is verified whether or not the obtained biometric information matches the inputted biometric information.

Thus, the biometric authentication apparatus 100 according to the present invention does not compare all the biometric information stored in the storage unit with the biometric information input by the user every time when the biometric information is authenticated (n = 1, Natural number), the biometric authentication speed is greatly improved by comparing only one biometric information corresponding to the response signal stored in the storage unit 112 and one biometric information currently input in a 1: 1 manner.

The biometric authentication apparatus 100 may transmit a response signal (e.g., a MAC address or an ID) corresponding to the second BLE module 121 of the mobile communication device 120 to the storage unit 112 of the biometric authentication reader 110, And biometrics information (for example, fingerprints) possessed by the owner of the mobile communication device 120 are matched with each other and stored, so that it is possible to operate independently without the need of a separate server. Thus, the biometric authentication apparatus 100 can be suitably used in a small-scale business complex having a small number of biometric identification readers 110.

Referring to FIG. 2, the configuration of a biometric authentication device 200 using BLE technology according to another embodiment of the present invention is shown as a block diagram.

2, the biometric authentication apparatus 200 further includes a server 240 connected to the biometric reader 110 through a wired / wireless communication network 230, and the server 240 may store (241). A response signal (e.g., a MAC address or ID) corresponding to the second BLE module 121 of the mobile communication device 120 and a response signal (e.g., a MAC address or ID) corresponding to the second BLE module 121 of the mobile communication device 120 are stored in the storage unit 241 of the server 240, Biometric information (e.g., fingerprints) possessed by the owner of the communication device 120 can be matched and stored.

Therefore, the biometric authentication device 200 does not need to have a large-capacity database directly, and it can acquire necessary information from the storage unit 241 of the server 240 through the wired / Download Accordingly, the biometric authentication device 200 can lower the price of the biometric reader 110, and can be suitably used in a large-scale business complex having a plurality of biometric identification readers 110 in particular.

Referring to FIG. 3, a biometric authentication method using BLE technology according to another embodiment of the present invention is shown as a flowchart.

3, the biometric authentication method according to the present invention includes a scan step S1, a response step S2, a biometric information acquisition step S3, a biometric information input step S4, and a biometric information verification step S5 ).

In the scanning step S1, the first BLE module 111 of the biometric reader 110 scans the second BLE module 121 of the mobile communication device 120. [ Here, the scanable distance is about 50 m when there is no obstacle.

In the response step S2, it is determined whether the second BLE module 121 of the mobile communication device 120 has transmitted a response signal to the first BLE module 111 of the biometric reader 110. Here, the response signal is transmitted from the second BLE module 121 to the first BLE module 111 when the first BLE module 111 and the second BLE module 121 are within approximately 5 m. In addition, the response signal may be the MAC address or ID of the mobile communication device 120 and / or the second BLE module 121 as described above.

In the biometric information acquiring step S3, if a response signal is transmitted in step S2, the biometric reader 110 acquires biometric information corresponding to the response signal. For example, the biometric reader 110 loads any one of the biometric information corresponding to the response signal among the biometric information stored in the storage unit 112 in advance. For example, biometric information related to a fingerprint, vein, iris, long face, or face corresponding to a MAC address or ID of the mobile communication device 120 and / or the second BLE module 121 is stored in the storage unit 112 as a database Is stored.

In the biometric information input step S4, it is determined whether biometric information is input to the biometric reader 110 by the user. That is, it is determined whether biometric information such as a fingerprint, a vein, an iris, a long-mouth or a face is input through the biometric reader 110 by a user having the mobile communication device 120.

In the biometric information verification step S5, if biometric information is input in step S4, verification is performed by comparing the obtained biometric information with the inputted biometric information. Of course, this verification is performed by the biometric reader 110.

In addition, if the obtained biometric information and the inputted biometric information match each other after the verification, the biometric reader 110 may preliminarily transmit the biometric information to the door lock device or the approval device in advance so that the locked state of the door is canceled, And transmits a predetermined signal.

Referring to FIG. 4, a biometric authentication method using BLE technology according to another embodiment of the present invention is shown as a flowchart.

As shown in Fig. 4, step S13 differs from the above description in still another embodiment of the present invention. In other words, in the above example, the biometric information corresponding to the response signal is acquired or loaded from the storage unit 112 provided in the biometric reader 110. However, in another embodiment of the present invention, The biometric information corresponding to the response signal is acquired or loaded. Of course, the biometric reader 110 is connected to the server 240 through the wired / wireless communication network 230 for this purpose.

Accordingly, by this method, one server 240 transmits biometric information to a plurality of biometric readers 110, so that it is not only secure but also easy to manage and maintain the biometric information.

Referring to FIG. 5A, a conventional fingerprint search method is illustrated, and FIG. 5B illustrates a fingerprint search method according to the present invention.

As shown in FIG. 5A, if 10,000 persons are registered for each biometric information authentication, for example, the biometric reader should compare 10,000 minutiae points. Therefore, the search time becomes longer as the comparison time x number of registrants. For example, if the fingerprint minutiae input from the user is "464656646 ~ ", the biometric reader reads 10,000 fingerprint minutia data from the fingerprint database and compares them.

Meanwhile, as shown in FIG. 5B, in the present invention, the Mac address or ID of the BLE is read at a long distance, and only the corresponding fingerprint feature points are read and compared in the fingerprint database. Therefore, the search time is equal to one person or 10,000 persons. As an example, if the ID or MAC address "002" from the smartphone is first input to the biometric reader, and then the fingerprint feature point input from the user is "7676786 ~ ", then the biometric reader responds to & One fingerprint feature point "7676786 ~" Therefore, according to the present invention, the fingerprint recognition time is considerably shortened.

The present invention is not limited to the above-described embodiment, and various modifications and changes may be made without departing from the scope of the present invention as set forth in the appended claims. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. For example, although the present invention has been described with reference to a BLE module having a small power consumption, the present invention can be sufficiently implemented with a conventional BT (bluetooth) module having a large power consumption. Therefore, the scope of the present invention is a concept including not only the BLE module but also the BT module.

100, 200; The biometric authentication device using the BLE technology according to the present invention
110; Biometric reader 111; The first BLE module
112; A storage unit 120; Mobile communication device
121; A second BLE module 230; Wired / wireless communication network
240; A server 241; The storage unit

Claims (14)

A biometric reader having a first BLE (Bluetooth Low Energy) module; And
A mobile communication device having a second BLE module in communication with the first BLE module,
Wherein the first BLE module scans the second BLE module, the second BLE module transmits a response signal to the first BLE module, the biometric reader obtains biometric information corresponding to the response signal, The biometric reader compares the acquired biometric information with the input biometric information and verifies the biometric information,
The response signal is a MAC address or identification of the mobile communication device,
The acquired biometric information is stored in advance in the storage unit of the server matched with the response signal in the storage unit of the biometric reader or connected to the biometric reader through the wired / wireless communication network, A biometric authentication device using BLE technology. The method according to claim 1,
Wherein the mobile communication device is a smart phone, a smart clock, or a smart tag. The method according to claim 1,
Wherein the response signal is transmitted from the second BLE module to the first BLE module when the first BLE module and the second BLE module are within 5 m. delete delete delete The method according to claim 1,
Wherein the biometric information is a fingerprint, a vein, an iris, a long finger, or a face. Scanning a second BLE of the mobile communication device with a first Bluetooth low energy module of the biometric reader;
Determining whether the second BLE of the mobile communication device transmits a response signal to the first BLE of the biometric reader;
The biometric reader acquiring biometric information corresponding to the response signal;
Determining whether biometric information is input; And
Comparing the obtained biometric information with the input biometric information and verifying the same,
The response signal is a MAC address or identification of the mobile communication device,
The acquired biometric information is stored in advance in the storage unit of the server matched with the response signal in the storage unit of the biometric reader or connected to the biometric reader through the wired / wireless communication network, A biometric authentication method using BLE technology. 9. The method of claim 8,
Wherein the mobile communication device is a smart phone, a smart clock, or a smart tag. 9. The method of claim 8,
Wherein the response signal is transmitted from the second BLE module to the first BLE module when the first BLE module and the second BLE module are within 5 m. delete delete delete 9. The method of claim 8,
Wherein the biometric information is a fingerprint, a vein, an iris, a long finger (palm), or a face.

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