KR20200108730A - Digital door lock for outputting biometric information accumulation ratio - Google Patents

Abstract

Disclosed is a digital door lock for opening and closing a door. The digital door lock includes: a keypad including keys for generating key signals for biometric information registration and password registration; a locking device which controls the locking and opening of the door by driving a motor; a biometric information input module for inputting the biometric information; a memory; and a processor. The processor receives the biometric information whenever the biometric information is input through the biometric information input module to register the biometric information in the memory, performs image-processing of the received biometric information to accumulate biometric data, and controls the keypad so that the accumulation rate of the biometric data accumulated whenever the biometric data is accumulated can be displayed using the keys.

Description

Digital door lock that can output biometric information accumulation rate {DIGITAL DOOR LOCK FOR OUTPUTTING BIOMETRIC INFORMATION ACCUMULATION RATIO}

The present invention relates to a digital door lock, and more particularly, to a digital door lock capable of outputting a biometric information accumulation rate through a visual device or an auditory device when biometric information for each user is registered in the digital door lock.

Since the digital door lock automatically locks the door by simply closing the door and can open the door with a password, NFC card, or fingerprint, the user does not have to carry a key, but when the password is exposed to a criminal, the criminal Can open and enter the door using the password.

When registering a fingerprint per ID (or per user) in a digital door lock, assuming that the memory capacity for registering the fingerprint is allocated as 4Kbyte and the number of fingerprint registration attempts is limited to a maximum of 4, it is a good system to recognize. The first user with one fingerprint can be registered in the memory if the first fingerprint is 100% recognized even if the first fingerprint is not entered into the digital door lock up to four times, but a second user with a second fingerprint that is difficult to recognize Even if a user (including a child with a small finger) inputs the second fingerprint into the digital door lock four times, the second fingerprint may be registered in the memory without being 100% recognized.

After the first fingerprint of the first user and the second fingerprint of the second user are registered in the memory of the digital door lock, the authentication success rate for the second fingerprint of the second user at the time of fingerprint authentication for opening the door is the first It is lower than the authentication success rate for the user's first fingerprint.

Registered Utility Model Gazette: Registration No. 20-0363941 (Notification date October 11, 2004) Registered Patent Publication: Registration No. 10-0819457 (Notification date April 4, 2008)

The technical problem to be achieved by the present invention is to provide a digital door lock that can increase the biometric information recognition success rate. When each user registers his or her own biometric information (or biometric data corresponding to the biometric information) to the digital door lock, the Without limiting the number of attempts to register biometric information, the biometric information recognition success rate is increased by allowing the biometric information registration attempt until the amount of biometric information accumulated in the memory becomes 100% within the range of the allocated memory usage. It is to provide a digital door lock that can be enhanced.

A digital door lock that opens and closes a door according to embodiments of the present invention includes a keypad including keys that generate key signals for biometric information registration and password registration, and a locking device that controls the locking and opening of the door by driving a motor. And, a biometric information input module for inputting biometric information, a memory, and receiving and receiving the biometric information whenever the biometric information is input through the biometric information input module to register the biometric information in the memory And a processor for controlling the keypad to image-process the biometric information to accumulate biometric data, and to display an accumulation rate of biometric data accumulated whenever the biometric data is accumulated using the keys.

The digital door lock for opening and closing a door according to the embodiments of the present invention has a keypad including keys that generate key signals for biometric information registration and password registration, an output device, and a motor to lock and open the door. A locking device to control, a biometric information input module for inputting biometric information, a memory, and the biometric information each time the biometric information is input through the biometric information input module to register the biometric information in the memory. A processor that receives and processes the received biometric information as an image to accumulate biometric data, and controls the output device to display an accumulation rate of biometric data accumulated each time the biometric data is accumulated, using the output device Includes.

A digital door lock that opens and closes a door according to embodiments of the present invention includes a keypad including keys that generate key signals for biometric information registration and password registration, and a locking device that controls the locking and opening of the door by driving a motor. Wow, whenever the biometric information is input through a biometric information input module for inputting biometric information, a memory, a wireless communication device, and the biometric information input module 180 to register the biometric information in the memory In the display device of the mobile device communicating with the wireless communication device, the biometric information is received, the biometric information is image-processed to accumulate biometric data, and the accumulation rate of biometric data accumulated each time the biometric data is accumulated An accumulation rate signal corresponding to the accumulation rate is transmitted to the wireless communication device so as to be displayed as a number.

In the digital door lock according to the present invention, when each user registers his or her own biometric information (or biometric data corresponding to the biometric information) to the digital door lock, the number of attempts to register the biometric information is not limited, It is possible to increase the biometric information recognition success rate by allowing the attempt to register the biometric information until the amount of the biometric information accumulated in the memory becomes 100% within the range.

A detailed description of each drawing is provided in order to more fully understand the drawings cited in the detailed description of the present invention.
1 is a block diagram of a digital door lock capable of outputting an accumulation rate of biometric information through a keypad according to embodiments of the present invention.
2 is a flow chart illustrating an operation of a digital door lock capable of outputting an accumulation rate of biometric information according to embodiments of the present invention.
3 is a block diagram of a digital door lock capable of outputting an accumulation rate of biometric information through an output device according to embodiments of the present invention.
4 is a block diagram of a digital door lock capable of outputting an accumulation rate of biometric information through a mobile device according to embodiments of the present invention.

1 is a block diagram of a digital door lock capable of outputting a biometric information accumulation rate through a keypad according to embodiments of the present invention.

Referring to FIG. 1, a digital door lock 100A capable of locking a door installed in a home or office includes a processor 115, a keypad (or a touch pad using a touch screen panel; 120), a memory (or memory device; 130), A battery 135, a motor driver 140, a motor 145, a locking device 150, a plurality of communication modules 165, 170, and 175, and a biometric information recognition module 180 may be included.

According to embodiments, the digital door lock 100A may further include a buzzer 155 and/or a speaker 160. The buzzer 155 and the speaker 160 may be examples of audio output devices.

The processor 115 receives the biometric information whenever biometric information is input through the biometric information input module 180 to register biometric information for each user in the memory 130, and processes the received biometric information to The keypad 120 may be controlled to generate data, accumulate the generated biometric data, and display an accumulation rate of the biometric data accumulated each time the biometric data is accumulated through the keypad 120.

The processor 115 stores the user-specific biometric information (or biometric data generated based on the biometric information) in a corresponding storage area of the memory 130 (ie, a storage area allocated for each user among all storage areas). The same storage area (or capacity) can be allocated for each user.

Processor 115, until the accumulation rate of the biometric data accumulated to register biometric information for each user in the memory 130 (or the rate at which biometric information is accumulated in the memory allocated for each user) becomes 100%, The biometric information of the user to be registered transmitted from the information input module 180 may be received, biometric data may be generated from the received biometric information, and the generated biometric data may be accumulated in the memory 130.

Here, the cumulative rate is a percentage of how much biometric information is recognized based on when 100% of the biometric information per user (or ID) is recognized, and the amount of memory used when 100% biometric information is recognized Assuming that A is A and the amount of memory used when 70% of the biometric information is recognized is B, the accumulation rate (R=B/A) is 70%. For example, the accumulation rate of biometric information for each user (or for each ID) has a correlation with the amount of memory allocated for each user (or for each ID).

In addition, when the memory usage is allocated as 4Kbyte for each user (or for each ID), even if the biometric information is stored in the memory allocated for each user within a tolerance (e.g., 10%) of 3.6Kbyte or more, the processor 115 May determine that 100% of the biometric information is accumulated.

For example, when each biometric image corresponding to the biometric information for each user is generated, the processor 115 uniquely distinguishes from each of the biometric images for each user (e.g., the point at which the ridge ends and the ridge line Biometric information may be accumulated for each user by extracting the location, direction, and/or shape of the branch point of, and processing (eg, combining or synthesizing) feature points extracted from each of the biometric images.

Here, when the accumulation rate of the accumulated biometric data is 100%, the memory capacity (or usage, for example 4Kbyte) allocated to the user to be registered is defined as being filled, and when the accumulation rate of the accumulated biometric data is less than 100%, The amount of memory allocated to the user (or usage, for example, 4Kbyte) is defined as not being filled.

Therefore, the processor 115 can calculate the accumulation rate of biometric data and the amount of allocated memory in real time, so whether the accumulation rate of the biometric data is 100% or whether the amount of memory allocated to the user to be registered is all filled. I can judge.

The processor 115 may execute a computer program capable of performing the operations described above. The processor 115 may mean a micro controller unit or a CPU.

The keypad 120 refers to a pad including numeric keys (eg, 0 (zero) to 9) and special character keys (* and #). When each of the numeric keys (eg, 0 to 9) and each of the special character keys (* and #) are pressed or touched, the keypad 120 may transmit a key signal corresponding thereto to the processor 115. The user can manipulate the keypad 120 to set functions such as biometric information registration and password registration.

According to embodiments, the keypad 120 includes a plurality of keys (eg, numeric keys and special character keys), LEDs related to the operation of the plurality of keys (eg, key LEDs), and a driver driving the LEDs. Can include. According to embodiments, the driver may be implemented in the processor 115. In the present specification, it is assumed that the key included in the keypad 120 includes a key LED and/or at least one LED disposed separately from the key LED.

The memory 130 may be implemented as a nonvolatile memory device capable of storing biometric information and a password.

The battery 135 can output voltages required for operation of each of the components 115, 120, 130, 140, 145, 150, 155, 160, 165, 170, 175, and 180 of the digital door lock 100A. have.

The motor driver 140 may control the operation of the motor 145 according to the control of the processor 115, and the user can use the digital door lock 100A as the locking device 150 connected to the motor 145 is automatically released. You can open the door by operating the handle or lever handle of the door.

The locking device 150 that controls the locking and opening of the door by driving the motor 145 refers to a device that allows the door to be opened or the door to be locked, and is referred to as a latch or a deadbolt. When the latch or the dead bolt is inserted into a catch box, strike box, or scrite case installed on the door, the door is locked, and the latch or the dead bolt is the catch When separated from the box, the strike box, or the scrite case, the user can open the door by operating the handle or lever handle of the digital door lock 100A.

The first communication module 165 may be a wireless communication device using a Z-wave wireless communication protocol, and the second communication module 170 is a wireless communication device using a Bluetooth low energy (BLE) wireless communication protocol. The third communication module 175 may be a wireless communication device using a ZigBee wireless communication protocol, an RFID wireless communication protocol, a Wi-Fi wireless communication protocol, or a mobile communication protocol. Each of the modules 165, 170, and 175 may mean a transceiver.

The buzzer 155 may output an accumulation rate (or memory usage per user) of biometric data accumulated under control to the processor 115. For example, when the processor 115 can adjust the buzzer sound of the buzzer 155 by frequency or the volume of the buzzer 155, the processor 115 may output the frequency and/or the accumulating rate of accumulated biometric data. Alternatively, the volume can be adjusted. For example, as the accumulation rate of the accumulated biometric data increases, the volume of the buzzer sound of the buzzer 155 may be increased by the processor 115.

The speaker 160 may output an accumulation rate of biometric data accumulated under the control of the processor 115 as a voice.

The biometric information recognition module 180 may be a fingerprint recognition device, a palm print recognition device, an iris recognition device, a face recognition device, or a vein recognition device, and the biometric information recognition module 180 may be configured to recognize biometric information (e.g., fingerprint information). , Palmistry information, iris information, facial recognition information, or vein recognition information) may be transmitted to the processor 115.

2 is a flowchart illustrating an operation of a digital door lock capable of outputting an accumulation rate of biometric information according to embodiments of the present invention.

A process of registering biometric information (or biometric data generated based on the biometric information) in the memory 130 will be described in detail with reference to FIGS. 1 and 2. For convenience of explanation, it is assumed that biometric information is fingerprint information, but the technical idea of the present invention is to store iris information, palmistry information, facial recognition information, or vein recognition information (or data generated based on such information) into the memory 130. This also applies to the process of registering with.

When a user recognizes his/her finger to the biometric information recognition module 180 to register his/her biometric information (eg, fingerprint) in the digital door lock 100A, the biometric information recognition module 180 Alternatively, fingerprint information) is recognized and the recognized biometric information (eg, fingerprint information) is transmitted to the processor 115, and the processor 115 receives the biometric information (S105).

The processor 115 receives the biometric information transmitted from the biometric information input module 180, generates biometric data by image processing the received biometric information, and accumulates the generated biometric data (eg, feature points) (S110). ).

The processor 115 displays the change in the accumulation rate of the accumulated biometric data in real time using keys (eg, key LEDs or separate LEDs different from the key LEDs) included in the keypad 120 (S115). ). Displaying the cumulative rate or the change in the cumulative rate using the keys in real time refers to LEDs (eg, key LEDs or LEDs (or LEDs) implemented separately from the key LEDs) indicating the operation of the keys. This means that the accumulation rate or the change in the accumulation rate is displayed in real time.

According to embodiments, when the accumulation rate of the accumulated biometric data is displayed in units of 10, the accumulation rate of the accumulated biometric data is indicated by one key (or an LED related to the key) among keys included in the keypad 120. It can be (S115).

For example, when the accumulation rate of the accumulated biometric data is less than 0% to 10%, the processor 115 may display the accumulation rate using the numeric key '1' included in the keypad 120, and the accumulated biometric data When the accumulation rate of is 10% or more and less than 20%, the processor 115 may display the accumulation rate using the numeric key '2' included in the keypad 120, and the accumulation rate of the accumulated biometric data is 90 When the percentage is greater than or equal to 99%, the processor 115 may display the accumulation rate using the numeric key '9' included in the keypad 120, and when the accumulation rate of the accumulated biometric data is 100%, the processor ( 115) may display the accumulation rate using a numeric key '0' or a special key (eg, # or *) included in the keypad 120.

Accumulation rate of the accumulated biometric data (or the amount of memory allocated to the user) by using one of the keys included in the keypad 120 (LED related to the key or an LED arranged separately from the LED related to the key) The ways of displaying) can be variously modified. As described above, the accumulation rate may be displayed as an LED (or a plurality of LEDs) related to a key capable of displaying the accumulation rate is lit or flashed.

According to embodiments, when the accumulation rate of the accumulated biometric data (or the amount of memory allocated to the user) is displayed as a quantity (eg, a percentage), the accumulation rate of the accumulated biometric data is included in the keypad 120. Among the keys may be indicated by at least two keys (or at least two LEDs associated with at least two keys).

For example, when the accumulation rate of the accumulated biometric data is 35%, the processor 115 may sequentially display '3' and '5' using numeric keys '3' and '5', and the accumulated biometric data When the cumulative rate of is 100%, the processor 115 may sequentially display '1', '0', and '0' using number keys '1' and '0'.

As another example, when the accumulation rate of the accumulated biometric data is less than 10%, the processor 115 turns on the LED corresponding to the numeric key '1', and the accumulation rate of the accumulated biometric data is 10% or more and less than 20%. At this time, the processor 115 further lights the LED corresponding to the number key '2', and when the accumulation rate of the accumulated biometric data is 20 or more and less than 30%, the processor 115 turns on the LED corresponding to the number key '3'. In a more lit method, as the accumulation rate of biometric data (or the amount of memory used) increases, the processor 115 may increase the number of numeric keys lit by the LED.

As another example, when the accumulation rate of the accumulated biometric data is less than 30%, the processor 115 turns on LEDs corresponding to the numeric keys '1', '2', and '3' arranged in the first row, and , When the accumulation rate of the accumulated biometric data is 30% or more and less than 60%, the processor 115 includes numeric keys '4' arranged in the second row. LEDs corresponding to '5' and '6' are turned on, and when the accumulation rate of the accumulated biometric data is 60% or more and less than 90%, the processor 115 displays the numeric keys '7' arranged in the third row. When the LEDs corresponding to '8' and '9' are lit, and the accumulation rate of the accumulated biometric data is 100%, the processor 115 displays the numeric keys'*' arranged in the fourth row. LEDs corresponding to '0' and'#' can be turned on.

As described above for example, the processor 115 quantitatively calculates the accumulation rate of the accumulated biometric data (the amount of memory allocated for each user) by using one key or at least two keys among the keys included in the keypad 120. (Or numbers).

Whenever the accumulation rate of the accumulated biometric data increases, the processor 115 may adjust the number of keys to display the accumulation rate among keys arranged on the keypad 120.

As described above, the usage of the memory 130 allocated to each user may be mapped to an accumulation rate of the accumulated biometric data. That is, when the amount of the memory 130 allocated to a specific user is 78%, the accumulation rate of the accumulated biometric data may be 78%.

The processor 115 or the computer program executed in the processor 115 can determine whether the memory capacity of the memory 130 allocated for each user is filled out of the total memory capacity or whether the accumulation rate of the accumulated biometric data is 100%. Yes (S120).

When it is determined that the memory capacity of the memory 130 allocated to the user registering the current fingerprint has not been filled, or when it is determined that the accumulation rate of the accumulated biometric data is less than 100% (NO in S120), the processor 115 The accumulation rate of the accumulated biometric data through the keypad 120 is displayed according to the control of the user, so that the user has the accumulated biometric data until the memory capacity is full (or is considered to be full within the tolerance range) or The biometric information registration operation of registering a fingerprint in the digital door lock 100A may be repeatedly performed until the accumulation rate of data reaches 100% (or a range considered to be 100% within an allowable error range).

When the memory capacity of the memory 130 allocated to the user who is currently enrolling a fingerprint is full or when the accumulation rate of the accumulated biometric data is 100% (YES in S120), the processor 115 performs the accumulated biometric data (or The fingerprint) is stored (or registered) in the memory 130 (S125). When the fingerprint is registered in the memory 130 of the digital door lock 100A through this process, when the locking device 150 of the door lock 100A is released using the fingerprint, there is an effect of increasing the fingerprint recognition success rate.

3 is a block diagram of a digital door lock capable of outputting an accumulation rate of biometric information through an output device according to embodiments of the present invention.

The digital door lock 100B of FIG. 3 includes a processor 115, a keypad (or a touch pad using a touch screen panel; 120), a memory (or memory device; 130), a battery 135, a motor driver 140, a motor ( 145, a locking device 150, a plurality of communication modules 165, 170, and 175, a biometric information recognition module 180, and a display 185 may be included. The digital door lock 100B may further include a buzzer 155 and/or a speaker 160. The output device may mean the display 185, the buzzer 155 and/or the speaker 160.

The processor 115 of the digital door lock 100B (or a computer program executed in the processor 115) in the same or similar to that described with reference to FIGS. 1 and 2) stores biometric information (eg, fingerprint) in the memory 130. For registration, each time the biometric information is input through the biometric information input module 180, the biometric information is received, the received biometric information is image-processed to generate biometric data (eg, feature point data including feature points), and , Accumulates the generated biometric data (e.g., accumulates in the memory 130), and displays the accumulation rate of biometric data accumulated each time the biometric data is accumulated using the output device 155, 160, and/or 185 The output devices 155, 160, and/or 185 may be controlled to be able to be.

According to embodiments, when the display 185 used as an output device includes LEDs, the processor 115 controls the LEDs to control the cumulative rate of biometric data accumulated (or the amount of memory 130 allocated to the user). How much is filled) can be displayed as a number.

Various methods of displaying the accumulation rate of biometric data accumulated using LEDs (or how much the amount of usage of the memory 130 allocated to the user is filled) may be implemented in various ways.

According to embodiments, when the display 185 used as an output device includes LEDs displaying different colors, the processor 115 uses the LEDs to accumulate the accumulation rate of biometric data (or allocated to the corresponding user). How much the amount of the memory 130 is filled) can be displayed.

A method of displaying the accumulation rate of the accumulated biometric data (or how much the amount of the memory 130 allocated to the user is filled) by using color LEDs may be implemented in various ways.

According to embodiments, when the display 185 used as an output device is an LCD capable of displaying numbers, the processor 115 may control the LCD so that the accumulation rate of accumulated biometric data is displayed as numbers.

According to embodiments, the display 185 used as an output device may display an accumulation rate of biometric data accumulated under control of the processor 115 as a graph (eg, a bar).

According to embodiments, when the output device is the buzzer 155, the processor 115 displays at least one of a frequency and a volume supplied to the buzzer 155 in order to output the accumulation rate of the accumulated biometric data using the buzzer 155. Can be controlled.

According to embodiments, when the output device is the speaker 160, the processor 115 may control the speaker 160 so that the accumulation rate of accumulated biometric data is output as a voice.

4 is a block diagram of a digital door lock capable of outputting a biometric information accumulation rate through a mobile device according to embodiments of the present invention.

The digital door lock 100C of FIG. 4 includes a processor 115, a keypad (or a touch pad using a touch screen panel; 120), a memory (or memory device; 130), a battery 135, a motor driver 140, a motor ( 145, a locking device 150, a plurality of communication modules 165, 170, and 175, and a biometric information recognition module 180 may be included. The digital door lock 100C may further include a buzzer 155 and/or a speaker 160.

The digital door lock 100C of FIG. 4 may exchange wireless signals with a receiving device (eg, mobile device 200) using any one of a plurality of communication modules 165, 170, and 175.

The mobile device 200 may be a smartphone capable of executing a mobile application.

The processor 115 receives the biometric information each time the biometric information is input through the biometric information input module 180 in order to register biometric information (eg, fingerprint) in the memory 130, and receives the biometric information. Image processing to generate biometric data, accumulate the biometric data (eg, accumulate in the memory 130), generate an accumulation rate signal corresponding to the accumulation rate of the accumulated biometric data each time the biometric data is accumulated, , The accumulation rate signal may be transmitted to a plurality of communication modules 165, 170, and 175.

Among the plurality of communication modules 165, 170, and 175, a communication module capable of wireless communication with a receiving device (eg, mobile device 200) generates a wireless accumulation rate signal based on the accumulation rate signal transmitted from the processor 115. And transmits the wireless accumulation rate signal to a receiving device (eg, mobile device 200).

The mobile application running on the mobile device 200 uses the wireless accumulation rate signal transmitted from the digital door lock 100C to determine the accumulation rate of biometric data in numbers or in a graphic user interface (GUI) on the display of the mobile device 200. Can be displayed.

The operating method of the processor 115 described in this specification, for example, a method of determining what the accumulation rate of biometric data is, is a recording medium (eg, a computer program written in a computer program (eg, processor 115)) readable. 130 or a memory built into the processor 115).

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those of ordinary skill in the art will understand that various modifications and other equivalent embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the attached registration claims.

100A, 100B, 100C: Digital door lock
115: processor
120: touch (or key) pad
130: memory
135: battery
140: motor driver
145: motor
150: locking device
155: buzzer
160: speaker
165: first communication module
170: second communication module
175: third communication module
180: biometric information recognition module
185: display

Claims (11)

In the digital door lock that opens and closes the door,
A keypad including keys for generating key signals for biometric information registration and password registration;
A locking device controlling locking and opening of the door by driving a motor;
A biometric information input module for inputting biometric information;
Memory; And
Whenever the biometric information is input through the biometric information input module to register the biometric information in the memory, the biometric information is received, the biometric information is image-processed to accumulate biometric data, and the biometric data Digital door lock comprising a processor for controlling the keypad so that the accumulation rate of the biometric data accumulated each time is accumulated using the keys. The method of claim 1,
The biometric information is a fingerprint, palmistry, iris, face, or vein,
The processor controls the keypad so that the accumulation rate of the accumulated biometric data is displayed in units of 10 by using one of the keys each time the biometric data is accumulated. The method of claim 1,
The biometric information is fingerprint, remittance, iris, face, or vein,
The processor controls the keypad to display an accumulation rate of the accumulated biometric data in percent by using a plurality of keys among the keys whenever the biometric data is accumulated. In the digital door lock that opens and closes the door,
A keypad including keys for generating key signals for biometric information registration and password registration;
Output device;
A locking device controlling locking and opening of the door by driving a motor;
A biometric information input module for inputting biometric information;
Memory; And
Whenever the biometric information is input through the biometric information input module to register the biometric information in the memory, the biometric information is received, the biometric information is image-processed to accumulate biometric data, and the biometric data Digital door lock comprising a processor for controlling the output device so that the accumulation rate of the biometric data accumulated each time is accumulated is displayed using the output device. The method of claim 4,
The output device comprises LEDs,
The processor controls the LEDs to display an accumulation rate of the accumulated biometric data. The method of claim 4,
The output device includes color LEDs displaying different colors,
The processor controls the color LEDs to display an accumulation rate of the accumulated biometric data. The method of claim 4,
The output device is a display device,
The processor controls the display device to display an accumulation rate of the accumulated biometric data as numbers. The method of claim 4,
The output device is a display device,
The processor controls the display device to display an accumulation rate of the accumulated biometric data as a graph. The method of claim 4,
The output device is a speaker,
The processor controls the speaker so that the accumulation rate of the accumulated biometric data is output as a voice. The method of claim 4,
The output device is a buzzer,
The processor controls at least one of a frequency and a volume supplied to the buzzer to output the accumulation rate of the accumulated biometric data using the buzzer. In the digital door lock that opens and closes the door,
A keypad including keys for generating key signals for biometric information registration and password registration;
A locking device controlling locking and opening of the door by driving a motor;
A biometric information input module for inputting biometric information;
Memory;
Wireless communication device; And
Whenever the biometric information is input through the biometric information input module to register the biometric information in the memory, the biometric information is received, the biometric information is image-processed to accumulate biometric data, and the biometric data A digital door lock that transmits an accumulation rate signal corresponding to the accumulation rate to the wireless communication device so that the accumulation rate of biometric data accumulated every time is accumulated is displayed as a number on a display device of a mobile device communicating with the wireless communication device.

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