KR101632944B1 - Access control method, apparatus and system using wireless signal detector - Google Patents

Abstract

(A) receiving first identification data determined from a radio signal detected by a first radio signal detector, (c) accessing and authenticating a user using the received first identification data, and ) Controlling the door according to a result of the user access authentication, wherein the wireless signal is a signal transmitted from a cellular phone carried by the user and the first identification data includes an identifier for distinguishing the cellular phone from another cellular phone The present invention relates to an access control method, apparatus and system using a detector.

Description

TECHNICAL FIELD [0001] The present invention relates to an access control method, apparatus, and system using a wireless signal detector,

The present invention relates to an access control method, apparatus, and system using a radio signal detector, and more particularly, to an access control method, apparatus, and system using a radio signal detector, The present invention relates to an access control method, apparatus, and system using a signal detector.

Only a user (user) authorized to enter or exit the company or business site needs to be configured to be able to access. As a result, companies and business sites have an access control system, and only authorized users can access the company or business site through the access control system.

Existing access control systems consist of various devices. The existing access control system is equipped with an access control device provided at a door and used for user authentication. The access control device is generally installed on the side wall of the door and has various authentication interfaces for access authentication (permission).

For example, the access control device includes a card recognition module for identifying the access card, a fingerprint recognition module for identifying the fingerprint of the user, an iris recognition module for identifying the iris of the user, a number recognition module for identifying the password or the user Respectively. With the user authentication through the recognition module, the access control device can open / close a door to be controlled. For example, the access control device can control the access door drive device (e.g., drive motor, etc.) to which it is connected to open or close the corresponding door.

The existing access control system may further include an access control server. The access control server is connected to various access control devices and can receive access details for each user from each access control device. The access control server can perform various access control of the workplace using the received access history.

Access control through the recognition module can be advantageous for security because it is based on explicit user identification. On the other hand, the users of the door should take an action (pass) to pass the authentication every time they pass through the door.

For example, the user must bring his / her access card closer to the card recognition module, put his / her fingerprint on the fingerprint recognition module, close his or her eye to the iris recognition module, or input a password or the like into the number recognition module . In this way, the user can pass a specific door through a clear action on the recognition module.

There is a variety of inconveniences in the access control system through the existing access control system, since it is necessary to take an action for authentication in passing through the door. For example, according to the structure of the company, if you want to visit other departments' meeting rooms or enter an outside toilet, you must take the corresponding authentication action.

In addition, there may be a situation where it is difficult to take the authentication action necessary for passage of a door at the time of using the door, and at this time, it may be difficult to take the corresponding authentication action.

According to such circumstances or circumstances, it is possible to provide various advantages to the user if an access control system capable of automatically opening and closing a door can be provided without an authentication action. Therefore, there is a need for an access control method, apparatus and system using a radio signal detector capable of automatic authentication and access control without an explicit authentication action.

It is an object of the present invention to provide an access control method, apparatus, and system using a radio signal detector capable of passing through a door without a clear authentication action to the access control apparatus.

The present invention also provides an access control method, apparatus, and system using a radio signal detector that can automatically authenticate an identity of a passenger using a radio signal without an explicit authentication action to the access control device and thereby enable door control It has its purpose.

The present invention also provides an access control method, apparatus, and system using a radio signal detector capable of selectively requesting automatic door opening / closing or additional access authentication according to a differentiated security level by differentiating a security level of a business site managed by an access control device The purpose is to provide.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

According to another aspect of the present invention, there is provided an access control method using a radio signal detector, including: (a) receiving first identification data determined from a radio signal detected by a first radio signal detector; (c) And (d) controlling a door according to a result of the user access authentication, wherein the wireless signal is a signal transmitted from a cellular phone carried by a user, and the first identification data is a signal transmitted from a cellular phone And an identifier for distinguishing from another mobile phone.

Also, the access control device for achieving the above object includes a detector interface unit for receiving first identification data determined from the detected radio signal from the first radio signal detector, And a control unit controlling the door according to a result of the user access authentication, wherein the wireless signal is a signal transmitted from a mobile phone carried by the user and the first identification data includes an identifier for distinguishing the mobile phone from another mobile phone.

The access control system includes an access control device and a plurality of radio signal detectors. The access control device receives the first identification data, which is determined from the detected radio signal, from the first radio signal detector And a controller for controlling access to the user based on a result of the user access authentication, wherein the wireless signal is a signal transmitted from the mobile phone carried by the user, and the first identification The data includes an identifier for distinguishing the mobile phone from the other mobile phones, and each of the radio signal detectors transmits data of the mobile phone identifier to the access control device, and the access control device controls the corresponding entrance with the received mobile phone identifier.

The access control method, apparatus and system using the radio signal detector according to the present invention as described above have the effect that the entrance door can be passed through without the clear authentication action to the access control device.

Also, the access control method, apparatus and system using the radio signal detector according to the present invention can automatically identify the identity of the passenger using the wireless signal without a clear authentication action in the access control device, .

Also, the access control method, apparatus and system using the radio signal detector according to the present invention as described above differentiate the security level of a workplace managed by the access control device, and selectively open or close an automatic door opening or an additional entrance authentication And the like.

The effects obtained by the present invention are not limited to the above-mentioned effects, and other effects not mentioned can be clearly understood by those skilled in the art from the following description will be.

1 is a system block diagram of an exemplary access control system according to the present invention.
2 is a block diagram showing an exemplary access control device.
3 is a diagram illustrating an exemplary inter-device control flow for controlling a door using a single wireless signal detector.
4 is a diagram illustrating an exemplary inter-device control flow for controlling a door using a plurality of radio signal detectors.
5 is a diagram showing a control flow for setting an authentication mode and requesting further authentication according to the setting.

The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, in which: It can be easily carried out. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a system block diagram of an exemplary access control system according to the present invention.

1, the access control system includes an access control server 500 for managing one or more access doors 300, one or more access doors 300, an access control device 100 for controlling a specific one door 300, The mobile communication terminal further includes a user's cellular phone 600 including the wireless signal detector 200 and the driving device 400 and accessing through the door 300.

The access control server 500 may be connected to one or more access control devices 100 through a local network and may be connected to the access control system 100 in accordance with data received from the access control device 100 Is a device capable of managing the passengers of the vehicle.

For example, the access control server 500 receives the entry (work) time of a specific user together with the identifier of the user from the access control apparatus 100, and stores the received information in the database. Also, the access control server 500 receives the advance (leaving) time of the specific user from the access control apparatus 100 together with the identifier, and stores it in the database.

The access control server 500 can be managed by the administrator and can perform overall control of the access control system. For example, the access control server 500 can change the security level applied to the door 300 according to the current time. The access control server 500 may also control the opening and closing of the door 300. For example, the access control server 500 accesses and authenticates a corresponding user according to an identifier of the user received from the access control device 100, and outputs an opening / closing control signal for the access door 300 according to the access authentication to the access control device 100 .

The access control device 100 is a device installed in the door 300. The access control apparatus 100 is connected to at least the radio signal detector 200 and receives the identification data generated from the radio signal detected from the radio signal detector 200. The access control apparatus 100 can authenticate the identity of the passenger using the received identification data and can open and close the door 300 according to the access authentication.

The access control apparatus 100 may further include various authentication interfaces known in the art. For example, the access control apparatus 100 may include a card recognition module that recognizes and identifies an access card, a fingerprint recognition module that recognizes and identifies the fingerprint of a visitor, an iris recognition module that recognizes and identifies the iris of the visitor, And a number recognition module for recognizing the number recognition module. Existing authentication interfaces are available for additional authentication at an enhanced security level or for separate authentication.

The access control apparatus 100 is installed in the door 300 and is preferably installed outside the door 300. Accordingly, the passengers intending to enter can enter through the access control device 100. [

The details of the access control apparatus 100 will be described in detail with reference to FIGS.

The radio signal detector 200 detects a radio signal. The access control system includes one or more wireless signal detectors (200). Preferably, the access control system includes at least two radio signal detectors 200 for each door 300, and one radio signal detector 200 is provided outside the door 300 (for example, And the other radio signal detector 200 is installed inside the door 300 (for example, in a ceiling within a business place or a company).

The radio signal detector 200 is configured to detect a radio signal of the mobile phone 600 carried by a user of the access control system to / For example, the radio signal detector 200 periodically transmits a radio signal for connection or connection of the mobile phone 600 wirelessly. The cellular phone 600 generates data responsive to the wireless signal in accordance with the periodical transmission of the wireless signal, and transmits the generated data to the wireless signal.

The radio signal detector 200 extracts a mobile phone identifier for identifying a user from a radio signal from the mobile phone 600 and transmits the extracted mobile phone identifier to the access control apparatus 100. The mobile phone identifier is an identifier for distinguishing the mobile phone 600 that has transmitted the radio signal from another mobile phone. For example, the mobile phone identifier may be an ID of a user, a phone number of the mobile phone 600, a device address (MAC, Bluetooth identifier) of the mobile phone 600, an IP address, or the like.

The wireless signal detector 200 periodically transmits a beacon signal used in the Bluetooth protocol wirelessly and can receive a response or a connection request according to a beacon signal from the mobile phone 600. The wireless signal detector 200 may preferably be a device that supports Bluetooth low energy (BLE) technology.

BLE allows a simple and quick connection to other Bluetooth devices (e.g., cell phone 600) with low power, and the wireless signal detector 200 detects the Bluetooth signal from the wireless Bluetooth signal transmitted from the cell phone 600 through BLE technology Detects the mobile phone identifier and transmits the identification data including the mobile phone identifier to the access control device (100).

The radio signal detector 200 periodically transmits a radio signal (beacon signal) or the like, and the transmitted radio signal can be delivered only to the mobile phone 600 within a certain radius according to the signal strength. Therefore, the cellular phone 600 receiving the radio signal from the radio signal detector 200 can transmit a response thereto, but the cellular phone 600, which has not received the response, can not transmit a response or the like. A radio signal detector 200 is installed inside and outside the door 300 so that the radio signal detector 200 can receive a radio signal from the mobile phone 600 within a signal radius and can utilize the radio signal to control the door.

At least two radio signal detectors 200 are provided inside and outside the door 300 and each radio signal detector 200 has a radius at which a radio signal is transmitted (received). For example, one radio signal detector 200 transmits a radio signal to a mobile phone 600 within a 3 m radius and another radio signal detector 200 transmits a radio signal to a mobile phone 600 within a 3 m radius of another region do. The two radio signal detectors 200 have different radii so that the user can be automatically authenticated from the reception of data from the mobile phone 600 and can check whether the mobile phone 600 is entering or advancing.

For example, after the identifier of the specific mobile phone 600 is recognized in the wireless signal detector 200 installed outside the door 300, the identifier of the same mobile phone 600 is transmitted to the wireless signal detector 200 in the door 300 Once recognized, this is identifiable by entry into door 300. In the opposite case, it can be identified by advancement. The determination of the entry or advance direction can be determined by the posterior relationship of the identification data received by the two radio signal detectors 200.

The driving device 400 is connected to the door 300 to open and close the door 300. The driving device 400 opens and closes the corresponding door 300 according to the received opening / closing control signal. The driving device 400 may include, for example, a driving motor and may control the driving motor with an opening / closing control signal received from the access control device 100 or the like to open or close the door 300 connected to the driving motor.

The entrance door 300 is installed at a position where the entrance, exit, and control are required to enter and exit the building, such as a company, an apartment, a hotel, or the like, and is configured to be openable and closable under the control of the drive device 400. The door 300 is constructed in a well-known form and can be, for example, a slide type or a hinged type automatic door.

The mobile phone 600 is a mobile phone carried by a passenger who enters and exits the door 300. The mobile phone 600 is connectable to a mobile communication network and can be connected to another mobile phone 600 or a wired phone through a mobile communication network. Here, the passenger indicates an individual who intends to enter or enter through the door 300, and the user indicates an individual using the access control system, and indicates an individual who accesses the access control system regardless of whether the access is allowed or denied. Hereinafter, the terms "user" and "user" are used in combination.

The cellular phone 600 may preferably be a smart phone. The smartphone can be connected to various local or personal area networks as well as being able to access the mobile communication network. A smart phone can be connected to and connected to a wireless LAN, for example, and can be connected to and connected to a Bluetooth.

A smart phone has a general-purpose AP (Application Processor) and can execute devices and kernel programs associated with various application programs and application programs. In particular, a smartphone can store and operate an access management program provided or available from the access control system.

The access management program can be performed automatically or according to user input and can be interlocked with the radio signal detector 200. The access management program captures a signal (data) transmitted from the wireless signal detector 200 in association with a device program or a kernel program at the device end, generates data or connection request data responding to the signal, And sends out wirelessly. The generated data includes a mobile phone identifier.

The access control system of FIG. 1 includes one or a plurality of wireless signal detectors 200 for each door 300 and enables automatic access authentication using the wireless signal detector 200. Accordingly, it is possible to open and close the door 300 without an explicit authentication action by the access authentication through the wireless signal.

2 is a diagram showing an exemplary block diagram of the access control apparatus 100. As shown in Fig.

2, the access control apparatus 100 includes a detector interface unit 101, an authentication interface unit 103, a storage unit 105, an output unit 107, a communication unit 109, an access door drive unit 111, 113 and a control unit 115. [ The block diagram of FIG. 2 preferably represents a functional block diagram, and the access control apparatus 100 of FIG. 2 includes hardware for performing the corresponding function. The corresponding hardware will be described in more detail below.

The detector interface unit 101 of FIG. 2 is connected to one or a plurality of wireless signal detectors 200 by wire (or wireless, preferably wire) to receive identification data from the wireless signal detector 200.

The detector interface unit 101 is connected to each radio signal detector 200 through, for example, GPIO (General Purpose Input / Output), UART, RS232, Lt; / RTI > The received identification data includes a mobile phone identifier and the mobile phone identifier is an identifier that can be distinguished from other mobile phones. The wireless signal detector 200 receives the wireless signal transmitted from the user's cellular phone 600 and extracts the cellular phone identifier from the received wireless signal and transmits the identification data including the extracted cellular phone identifier to the detector interface unit 101. [ Lt; / RTI >

The detector interface unit 101 may be connected to a plurality of radio signal detectors 200 to receive identification data from one radio signal detector 200 and also to receive identification data from another radio signal detector 200 have. The identification data received from the two radio signal detectors 200 may include the same identifier and thereby determine the direction of movement of the particular cell phone 600 relative to the door 300.

The authentication interface unit 103 authenticates the user through an existing known authentication method. The authentication interface unit 103 extracts identification data according to a known known authentication method and transmits the extracted identification data to the control unit 115. [ For example, the authentication interface unit 103 may include at least one of a card recognition module, a fingerprint recognition module, an iris recognition module, a number recognition module, and the like so as to authenticate and authenticate a specific user using a known identity authentication method. The authentication interface unit 103 is preferably used for additional authentication besides automatic authentication through the radio signal detector 200. [

The storage unit 105 has a storage medium such as a volatile memory, a nonvolatile memory and / or a hard disk, and stores various data and / or programs.

The storage unit 105 stores identifiers of users allowed (permitted) through the entrance door 300 controlled by the access control apparatus 100 at least. Each of the user identifiers for identifying the individual user is composed of various types of identifiers according to the authentication scheme. For example, an identifier of a user includes a mobile phone identifier and further includes an access card identifier, a fingerprint identifier, an iris identifier, a password, and the like. The mobile phone identifier is an identifier for identifying the mobile phone 600, for example, a user ID (identifier), a phone number of the mobile phone 600, a device address (MAC address, Bluetooth address, etc.) . The mobile phone identifier can be received through the radio signal detector 200 or the like.

The output unit 107 includes an LED, a display, a speaker, and the like, and outputs an internal state of the access control apparatus 100 or a specific request. For example, the output unit 107 outputs an audio / video signal indicating an emergency state due to an unauthorized intrusion or an attempt to enter an unauthorized user.

The communication unit 109 is in data communication with an external access control server 500. The communication unit 109 is connected to the access control server 500 through a local network. The communication unit 109 is connected to the access control server 500 through, for example, a wired LAN or a wireless LAN to transmit various access status data to the access control server 500 and receives various control data from the access control server 500 do.

As an example, the communication unit 109 can transmit the access time, entry / exit direction, and user identifier of a specific user to the access control server 500. Accordingly, the access control server 500 can remotely control the access control device 100 according to the access right of a specific person, thereby opening / closing the access door 300 or recording the entrance / exit of a specific person. Alternatively, the communication unit 109 may receive the authentication mode used for access authentication from the access control server 500, and may transmit the received authentication mode to the control unit 115.

The gate driver 111 has a GPIO, a UART, a signal amplifier, an RS232 interface, and the like, and controls the driving device 400 connected thereto. The door 300 can be opened or closed by a signal output from the door driver 111. [

The connection unit 113 transmits and receives data between the blocks. The connection 113 may be, for example, a serial bus, a parallel bus, or a general purpose input output (GPIO). The connection unit 113 may be a one-to-one connected bus or a shared bus among three or more blocks depending on the type of the bus.

The control unit 115 includes an execution unit that executes instruction codes to control other blocks. The control unit 115 may be, for example, a CPU, an MPU, an MCU, or the like. The control unit 115 loads the program stored in the storage unit 105 and controls other blocks according to the loaded instruction code.

According to the execution of the instruction code, the control unit 115 accesses and authenticates a user using one or a plurality of identification data received through the detector interface unit 101 and a user identifier stored in the storage unit 105, And controls the door driving unit 111 according to the authentication result, thereby opening and closing the door 300.

The control unit 115 controls the moving direction of the entrance door 300 based on the reception posterior relationship from the radio signal detector 200 through the detector interface unit 101 of the two identification data . The determined direction of movement can also be transmitted through the communication unit 109 to the access control server 500 together with the user identifier.

In addition, the control unit 115 determines an authentication mode to be used for controlling the door 300 before receiving the identification data. The authentication mode has at least two modes, one mode is the automatic authentication mode and the other mode is the additional authentication mode.

The automatic authentication mode is a mode for automatically performing an access authentication using only the mobile phone identifier (1) received through the detector interface unit 101. The automatic authentication mode can be set, for example, when there are a plurality of users in the door 300 or within working hours.

The additional authentication mode is a mode for requesting authentication through the authentication interface unit 103 (additionally or separately) regardless of the user authentication through the mobile phone identifier. The additional authentication mode can be set, for example, when there are a small number of users in the door 300 or outside the working hours.

The automatic authentication mode or the additional authentication mode may be determined by the control unit 115 or may be determined by the control unit 115 receiving the mode data from the access control server 500. [

According to the determination of the authentication mode, the control unit 115 accesses and authenticates the user with the mobile phone identifier (s) of the identification data (s) received through the detector interface unit 101 in the automatic authentication mode, Open and close. In the additional authentication mode, the control unit 115 can access and authenticate a specific user by receiving additional identification data through the authentication interface unit 103 in addition to (or separately from) user identification through automatic authentication.

In the additional authentication mode, the user identification based on the automatic authentication can be used together with the user authentication through the authentication interface unit 103. [ For example, the control unit 115 may request additional authentication through the output unit 107 in accordance with the extraction of the mobile phone identifier through the radio signal detector 200. [ Accordingly, the control unit 115 can receive the identification data for further authentication from the authentication interface unit 103 and authenticate access by discriminating through the storage unit 105 whether the received identification data corresponds to the user identifier.

The authentication method of access by the control unit 115 is performed by comparing the identifier of the storage unit 105. For example, the control unit 115 compares the received mobile phone identifier with the identifiers of the users stored in the storage unit 105 and capable of accessing the entrance door 300, do. Or the control unit 115 compares the received various identifiers with the corresponding identifiers stored in the storage unit 105, and authenticates the access based on whether or not the identifiers match the specific one.

Various controls performed by the control unit 115 will be described in more detail with reference to FIGS.

FIG. 3 is a diagram illustrating an exemplary inter-device control flow for controlling a door 300 using a single wireless signal detector 200. 3 shows a control example of the door 300 in a simple environment in which one radio signal detector 200 is installed in the door 300. The radio signal detector 200 is preferably installed outside the door 300.

First, the radio signal detector 200 periodically transmits radio signals that can be received within a certain radius. The transmitted radio signal is, for example, a beacon signal for pairing or connection.

The access management program installed in the mobile phone 600 receives the radio signal and generates data including the mobile phone identifier according to the reception of the radio signal and transmits the generated data to the radio signal detector 200 via radio, Bluetooth wireless signal. Accordingly, the radio signal detector 200 detects a radio signal transmitted from the mobile phone 600 (see (1)).

The radio signal detector 200 extracts the mobile phone identifier from the detected radio signal (see (2)) and generates identification data for transmission to the access control apparatus 100. The identification data includes a mobile phone identifier and is generated according to the communication protocol or format agreed with the access control apparatus 100. [

The radio signal detector 200 transmits the identification data to the access control apparatus 100 and the control unit 115 of the access control apparatus 100 receives the identification data through the detector interface unit 101 (see (3)).

The control unit 115 of the access control apparatus 100 accesses and authenticates the user (see (4)) using the received identification data.

The control unit 115 extracts the mobile phone identifier from the received identification data and compares it with the mobile phone identifiers of the users stored in the storage unit 105. [ If the same mobile phone identifier exists as a result of the comparison, the control unit 115 authenticates the user as a user who is permitted to access the door 300.

As a result of the access authentication, the access control apparatus 100 controls the door 300. That is, the result of the access authentication is output through the output unit 107. For example, an audio or video signal indicating the permission or denial of access is output through the output unit 107. The control unit 115 also controls the door controller 111 to output the door control signal to the door controller 111 (see FIG. 5).

Through such a simple control flow, automatic access authentication and control for the door 300 can be performed by automated user authentication without explicit authentication action by the user.

FIG. 4 is a diagram illustrating an exemplary inter-device control flow for controlling a door 300 using a plurality of wireless signal detectors 200. FIG. 4 shows an example of control of the door 300 in an environment in which at least two radio signal detectors 200 are installed in the door 300. One radio signal detector 200 is installed outside the door 300 and the other radio signal detector 200 is installed inside the door 300. Each radio signal detector 200 has a radius capable of transmitting a radio signal and receiving a response therefrom. For example, each of the radio signal detectors 200 has a transmission / reception radius of 3 m for personal area networking (PAN). The cell phone 600 located in the overlapping area of the two radio signal detectors 200 can transmit the identification data (cell phone identifier) to both the radio signal detectors 200.

4, first, the access control apparatus 100 determines an authentication mode to be used for authentication in the door 300 to be controlled (see (1)). The authentication mode is either the automatic authentication mode or the additional authentication mode. The determination of the automatic authentication mode or the additional authentication mode is performed by the control unit 115 of the access control apparatus 100 or by the access control server 500.

In the automatic authentication mode, the access authentication is performed through the radio signal detector 200, and the additional authentication mode requires further authentication means. The automatic authentication mode is set, for example, when the entrance attendance number in the access control system or the entrance door 300 is equal to or greater than a predetermined number. For example, if there is one or N (N is 2 or more) persons in a specific company, access is set to be possible without additional authentication. Alternatively, the automatic authentication mode can be set not only when the number of persons is equal to or greater than the designated number, but also only at the working time (designated time range). For example, the automatic authentication mode is set when there are two or more persons (designated persons) between 9 am and 6 pm. The access control apparatus 100 (or the access control server 500) can set the additional authentication mode if the number is less than the designated number.

After setting the authentication mode, each radio signal detector 200 installed in the door 300 periodically transmits a beacon signal or the like. The beacon signal of each radio signal detector 200 can be reached within a certain radius.

A user's cellular phone 600 that wants to enter through the door 300 outside the door 300 first detects a beacon signal of the wireless signal detector 200 installed outside the door 300 and generates data including the cell phone identifier accordingly And transmits the generated data to the recognized radio signal detector 200.

Accordingly, the radio signal detector 200 detects a radio signal from the mobile phone 600 (see (2)) and extracts the mobile phone identifier from the detected radio signal (see (3)). The identification data including the extracted cellular phone identifier is transmitted to the access control apparatus 100 (see (4)). The processes of (2) to (4) of FIG. 4 may be repeatedly performed by the wireless signal detector 200. For example, according to the movement (within a radius) of the mobile phone 600, the mobile phone 600 periodically recognizes the beacon signal and the radio signal detector 200 receives and transmits radio signals from the mobile phone 600 a plurality of times It is possible to detect and transmit a plurality of identification data to the access control apparatus 100.

The transmitted identification data may further include signal strength data. The signal strength data represents the signal strength of the radio signal transmitted from the mobile phone 600 and can also be utilized to indicate a moving direction or the like.

The user's cellular phone 600 that intends to enter through the door 300 outside the door 300 can also detect the wireless signal by the wireless signal detector 200 installed in the door 300 according to the entry of the user.

That is, as the passenger approaches the door 300, the mobile phone 600 of the passenger is located within the radius of the radio signal detector 200 in the door 300. Accordingly, the mobile phone 600 detects the beacon signal from the internal radio signal detector 200, generates data including the mobile phone identifier, and transmits the generated data to the recognized radio signal detector 200. The mobile phone 600 is capable of transmitting a radio signal to a plurality of radio signal detectors 200 and transmitting radio signals to the two radio signal detectors 200 in a common region of the two radio signal detectors 200. On the other hand, in a non-common area, it is possible to transmit a radio signal to only one radio signal detector 200. Each radio signal sent to the two radio signal detectors 200 is preferably a different radio signal.

The radio signal detector 200 in the door 300 detects a radio signal from the mobile phone 600 (see Fig. 5) and extracts the mobile phone identifier from the detected radio signal (see Fig. 6). The identification data including the extracted cellular phone identifier is transmitted to the access control apparatus 100 (see (7)). The processes of (5) to (7) of FIG. 4 may be repeatedly or a plurality of times by the wireless signal detector 200 before access authentication. For example, while the cellular phone 600 recognizes the beacon signal according to the movement of the cellular phone 600, the radio signal detector 200 receives and detects the radio signal from the cellular phone 600 a plurality of times, To the access control device (100).

One or more, preferably a plurality of first identification data and a plurality of second identification data are stored in the storage unit 105. [ The first identification data and the second identification data stored in the storage unit 105 may further include time data. The time data includes the time at which the access control apparatus 100 received the corresponding identification data or the time at which the radio signal detector 200 detected the radio signal.

The posterior relationship between the identification data from the two radio signal detectors 200 is then available for identification of the direction of movement. That is, when intending to enter from the outside to the inside, an external radio signal detector 200 (hereinafter also referred to as a 'first radio signal detector') first recognizes (detects) the mobile phone 600, The wireless signal detector 200 and the internal wireless signal detector 200 (hereinafter, also referred to as a second wireless signal detector) recognize (detect) the mobile phone 600 according to a common area and the door 300 is opened The second radio signal detector 200 of the latter can recognize (detect) the mobile phone 600.

Likewise, a similar recognition pattern is obtained when the user desires to enter the outside from the inside of the door 300. That is, after the second wireless signal detector 200 recognizes the mobile phone 600, the first wireless signal detector 200 also recognizes the same mobile phone 600 and then only the first wireless signal detector 200 600).

The access control apparatus 100 receives identification data (identification data received from the first radio signal detector 200, hereinafter, referred to as 'first identification data') from each of the first radio signal detector 200 and the second radio signal detector 200, And the identification data received from the second radio signal detector 200 will be referred to as " second identification data " hereinafter). The received identification data may further include signal strength data.

The access control apparatus 100 authenticates the user of the mobile phone 600 by using one or more first identification data and one or more second identification data (refer to (8)).

As a specific example of access authentication, the access control apparatus 100 (first control section 115) first extracts the mobile phone identifier from each of the first identification data and the second identification data. The access control apparatus 100 confirms whether the extracted mobile phone identifiers are the same. Also, the access control apparatus 100 compares the extracted mobile phone identifier with the mobile phone identifiers of the users stored in the storage unit 105, and determines whether the extracted mobile phone identifier exists in the storage unit 105. [ If the extracted two mobile phone identifiers are the same and exist in the storage unit 105, the access control device 100 can permit (access) the access to the door 300 under control.

Access control of the access control apparatus 100 using the mobile phone identifier extracted through the wireless signal may require further authentication. When the authentication mode determined in the access authentication process is the automatic authentication mode in the access authentication process, the access control device 100 generates an access control signal according to access authentication and transmits the control signal to the driving device 400 (refer to (9)). Accordingly, the driving device 400 can control the motor or the like to open the door 300. [

If the determined authentication mode is the additional authentication mode, the control unit 115 of the access control device 100 receives the identification data extracted through the authentication interface unit 103. [ The control unit 115 accesses and authenticates the user by further using this additional identification data as well as the identification data received through the detector interface unit 101. [ In other words, the control unit 115 may be configured to perform an explicit user action through the authentication interface unit 103 due to a state in which the security level is set to be higher while the basic user is authenticated using the first identification data and the second identification data Lt; / RTI > The received identification data is compared with various identifiers stored in the storage unit 105 and determines whether or not access is possible.

When the user is authenticated through an additional authentication process in the additional authentication mode, the access control apparatus 100 also transmits an opening / closing control signal to the driving apparatus 400 (see (9)) through the door controller 111. [

The door 300 can be opened and closed by the automatic authentication and the additional authentication according to the security level. Also, the access authentication and the opening / closing of the door 300 can be performed irrespective of the direction from the outside to the inside or from the inside to the outside of the door 300. Accordingly, even when the user is authenticated, the door can be opened and closed automatically without any additional operation.

A plurality of first identification data and second identification data are received and stored. The transmission of the opening and closing control signal to the driving apparatus 400 can be performed when the same cellular phone identifier is extracted from the first and second identification data within a predetermined time range (for example, 0.1 second, 0.5 second, 1 second, and so on). That is, when the cellular phone 600 is located within the common radial area of the radio signal detector 200, the open / close control signal can be transmitted and access authentication can be performed.

With the access authentication, the access control apparatus 100 further determines the moving direction of the user (see (10)). The movement direction of the user indicates the entering direction or the entering direction with respect to the door 300 being controlled. The entrance direction indicates a direction from outside through the entrance door 300 into a place (company, business place, business place, office, apartment, etc.) managed by the access control system, .

The determination of the direction of movement is made using first identification data and second identification data that are received or stored. Specifically, the access control apparatus 100 receives identification data including a mobile phone identifier from one radio signal detector 200 and also receives identification data including the same mobile phone identifier from the two radio signal detectors 200 do. Through this, the access control apparatus 100 can determine the direction of movement such as entry or advancement.

That is, the identification data including one mobile phone identifier is transmitted from the specific radio signal detector 200 (for example, the first radio signal detector 200, hereinafter referred to as the first radio signal detector 200) And the first radio signal detector 200 is installed outside the door 300 or installed therein and has a radius for transmitting a beacon signal and receiving a radio signal. First, the access control apparatus 100 can discriminate whether it is an entry from the outside or an entry from the inside to the outside through the identification of the first radio signal detector 200 transmitting the first identification data including the mobile phone identifier. Then, the access control apparatus 100 receives the identification data including the same cellular phone identifier from another wireless signal detector 200 (for example, the second wireless signal detector 200). It is determined whether the moving direction of the mobile phone 600 is an entry or advancement by receiving subsequent second identification data including the same mobile phone identifier from the second radio signal detector 200. [ Thus, the access control apparatus 100 determines the moving direction of the specific mobile phone 600 based on the relationship between the received first identification data and the second identification data.

The determination of the direction of movement is generally made as follows. Receives and stores the first identification data periodically or repeatedly via the first radio signal detector (200). And receives and stores the second identification data periodically or repeatedly via the second radio signal detector 200. [ Each identification data to be stored includes a reception time. The reception time may be the detection time or the time when the access control apparatus 100 has received the identification data.

Accordingly, a mobile phone identifier is first recognized more than once through the first radio signal detector 200 according to the movement of the user, then detected simultaneously through the first and second radio signal detectors 200, Is detected more than once through the detector (200). The access control apparatus 100 can determine whether the entry data or the entry data is detected by detecting the pattern of the identification data. The access authentication and the transfer timing of the open / close control signal are preferably performed at the time when the first identification data and the second identification data having the same cell phone identifier are received within a predetermined time range.

Thereafter, the access control apparatus 100 changes the number of occupants according to the determination of the user movement direction, and re-determines the authentication mode (refer to (11)) accordingly. For example, the access control apparatus 100 increases the current occupant number by 1 or decreases the current occupant number by 1 according to entry of the occupant according to the specific cellular phone identifier. The changed current occupant number is compared with the designated number of persons and the automatic authentication mode or the additional authentication mode is set accordingly.

The re-established authentication mode is used for access authentication of the subsequent passengers.

Through such a control flow, the user can access without any explicit authentication action, and the access control system can monitor the entrance and exit of the user as well as opening and closing the automatic door 300.

5 is a diagram showing a control flow for setting an authentication mode and requesting further authentication according to the setting. The control flow of FIG. 5 may be performed by the access control apparatus 100 or the access control server 500. Preferably, the control flow of FIG. 5 is performed by the access control apparatus 100 (in particular, by the control unit 115) (hereinafter, it is assumed that the access control apparatus 100 is used). Hereinafter, the contents overlapping with the description of FIG. 4 will be briefly described.

First, the access control apparatus 100 identifies the current occupant (step S101). The identification of the entrance number is determined by entering or advancing through the door (300) or other explicit user input. Step S101 generally corresponds to the initial setting, and the occupant may be set to 0 or 1.

The access control apparatus 100 determines whether the current occupant is less than or equal to the designated number (step S103). If the current occupant number is less than the designated number, the process proceeds to step S105. Otherwise, the access control apparatus 100 moves to step S107. The designated number of persons may be a number that can be set by the administrator or the like.

The access control apparatus 100 determines (sets) the current authentication mode as an additional authentication mode in step S105, and determines the current authentication mode as the automatic authentication mode in step S107.

After the determination of the authentication mode, the access control apparatus 100 is able to receive identification data from the connected radio signal detectors 200.

Then, the access control apparatus 100 receives the identification data from the radio signal detectors 200 (step S109) and stores it in the storage unit 105. [

When the automatic authentication mode is set (step S111), the access control apparatus 100 judges whether or not the same mobile phone identifier exists in the identification data received from at least two radio signal detectors 200. [ If the same mobile phone identifier exists, the access control apparatus 100 compares the mobile phone identifier with the mobile phone identifiers of the user who can access the mobile phone, and authenticates access based on the comparison (step S113). According to the access authentication, the access control apparatus 100 controls the corresponding access door 300 to open or close.

Also, the access control apparatus 100 determines the moving direction using various identification data received from the at least two radio signal detectors 200 and including the same mobile phone identifier (step S115). The determination of the direction of movement is made based on the posterior relationship of the identification data received from the radio signal detector 200 and having the same cell phone identifier. The direction of movement indicates the direction of entry or advancement.

According to the determination of the moving direction, the access control apparatus 100 re-updates the current occupant. The re-renewal of the number of the occupants is either increased by 1 or decremented by 1 in the direction of entry or advancement. Then, the access control apparatus 100 re-determines the authentication mode (step S115) and transits to step S109 to authenticate access according to the re-determined authentication mode.

On the other hand, when the automatic authentication mode is not set, the access control apparatus 100 determines the moving direction using various identification data received from the at least two radio signal detectors 200 (step S117).

If the moving direction is the entry direction (step S119), the access control apparatus 100 receives the additional authentication data in step S121. That is, the control unit 115 of the access control apparatus 100 outputs a signal for requesting additional authentication through the output unit 107, and outputs a signal for additional authentication through the authentication interface unit 103 And receives identification data.

Then, the access control apparatus 100 compares the received additional authentication data with the stored access card, fingerprint, iris identifier, and passwords, and accesses and authenticates the access authentication data (step S123).

After the step S123 or after the step S123, the access control apparatus 100 updates the occupant number and re-determines the mode according to the update (step S125). If the number of people in the room is changed to more than the designated number, the mode can be changed to the automatic authentication mode through the mode recollection process. Thereafter, the passengers can be automatically authenticated through the steps S109 to S115 and the door 300 can be automatically opened and closed.

The determination of the automatic authentication mode (step S111) may be performed before step S109. At this time, the reception of the identification data (S109) and the determination of the moving direction (S117) after the discrimination to the additional authentication mode may be omitted.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The present invention is not limited to the drawings.

100: Access control device
101: detector interface unit 103: authentication interface unit
105: storage unit 107: output unit
109: communication unit 111:
113: connection part 115: control part
200: Radio signal detector
300: door 400:
500: access control server 600: mobile phone

Claims (10)

An access control method using a radio signal detector,
(a) receiving a plurality of first identification data determined from radio signals detected in a first radio signal detector;
(b) receiving a plurality of second identification data determined from the radio signals detected by the second radio signal detector;
(c) accessing and authenticating a user using first identification data and second identification data received during a designated time, the method comprising the steps of: (a) identifying a mobile phone identifier of the first identification data received during the designated time, An access authentication step of permitting access by the user when the cell phone identifier of the second identification data is the same and the cell phone identifier is present in the cell phone identifiers of the authorized user; And
(d) controlling the opening and closing of the door according to a result of the user access authentication,
The wireless signal is a signal transmitted from a mobile phone carried by the user,
Access control method. The method according to claim 1,
And determining the direction of movement of the user using the plurality of first identification data and the plurality of second identification data,
Wherein the first identification data is received from the first radio signal detector installed outside the door and the second identification data is received from the second radio signal detector installed inside the door,
Wherein the first radio signal detector and the second radio signal detector have common areas capable of receiving radio signals from the same cellular phone,
Wherein the determination of the movement direction is based on the time of reception or detection of each of the plurality of first identification data and the time of reception or detection of each of the plurality of second identification data And determining, based on a reception precedence relationship of a radio signal received from the same cellular phone,
Access control method. The method according to claim 1,
Wherein the first radio signal detector is installed outside the door, the second radio signal detector is installed inside the door,
Wherein the first radio signal detector and the second radio signal detector have common areas capable of receiving radio signals from the same cellular phone,
Wherein the step (c) comprises authenticating access using the first identification data and the second identification data received from the same mobile phone in the common area during the designated time,
Access control method. 3. The method of claim 2,
Further comprising: before the step (a), determining an authentication mode used for door control to be an automatic authentication mode or an additional authentication mode,
Wherein the step (c) further comprises: if the authentication mode is the automatic authentication mode, accessing the user with the first identification data and the second identification data received; if the authentication mode is the additional authentication mode, To authenticate access,
Access control method. 5. The method of claim 4,
Wherein the determining of the authentication mode determines an automatic authentication mode when the number of persons in the entrance door is equal to or greater than the designated number and determines the additional authentication mode when the number is less than the designated number,
Wherein the change of the entrance attendant is made through determination of the moving direction,
Access control method. 3. The method of claim 2,
The first wireless signal detector detects an identifier of the mobile phone from the Bluetooth wireless signal through Bluetooth Low Energy (BLE) technology and outputs first identification data including an identifier of the mobile phone,
Wherein the second wireless signal detector detects an identifier of the mobile phone from the Bluetooth wireless signal through BLE technology and outputs second identification data including an identifier of the mobile phone,
Access control method. A detector interface configured to receive a plurality of first identification data determined from detected wireless signals from a first wireless signal detector and a plurality of second identification data determined from detected wireless signals from a second wireless signal detector; And
And a controller for accessing and authenticating the user using the first identification data and the second identification data received during the designated time and controlling the opening and closing of the door according to the result of the user access authentication,
Wherein the controller is configured to determine whether the mobile phone identifier of the first identification data received during the designated time and the mobile phone identifier of the second identification data received during the specified time are the same, If the user exists in the mobile phone identifiers of the mobile terminal,
The wireless signal is a signal transmitted from a mobile phone carried by the user,
Access control device. 8. The method of claim 7,
The detector interface unit receives a plurality of first identification data from the first radio signal detector installed outside the door and receives a plurality of second identification data from the second radio signal detector installed inside the door, ,
Wherein the first radio signal detector and the second radio signal detector have common areas capable of receiving radio signals from the same cellular phone,
The control unit may determine an entry or advance direction of the user's entrance door using the plurality of first identification data and the plurality of second identification data,
Wherein the determination of the entry or advance direction is based on the reception or detection time of each of the plurality of first identification data and the reception or detection time of each of the plurality of second identification data, Which is determined based on the reception precedence relationship of the radio signals received from the same cellular phone in
Access control device. 9. The method of claim 8,
And an authentication interface unit for authenticating the user,
The control unit may determine an authentication mode used for door control to be an automatic authentication mode or an additional authentication mode before receiving the first identification data and the second identification data,
The control unit accesses and authenticates the user with the first identification data and second identification data received when the authentication mode is the automatic authentication mode and uses the additional identification data extracted through the authentication interface unit when the authentication mode is the additional authentication mode To authenticate the user by access,
Access control device. An access control device according to claim 7; And
A plurality of radio signal detectors including a first radio signal detector and a second radio signal detector,
Wherein each of the first radio signal detector and the second radio signal detector transmits identification data including a mobile phone identifier to the access control device,
Wherein the access control device controls a corresponding door by a mobile phone identifier of the received identification data,
Access control system.

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