KR20190130915A - Access control system and method thereof - Google Patents

Abstract

The present invention relates to an access management system and method. The access management system includes a user tag part which includes set access authority information and user information for a protected area and transmits a radio signal for location recognition of a user in association with user information, a location recognition part which receives the radio signal from the user tag part through a plurality of antennas installed in the protected area, respectively, and recognizes the location of the user in the protected area, and an access management part which manages the access of the user to the protected area by combining and authenticating the location of the user recognized by the location recognition part together with the access authority information and the user information set in the user tag part. It is possible to perform accurate access management.

Description

Access control system and method {ACCESS CONTROL SYSTEM AND METHOD THEREOF}

The present invention relates to an access management system and method, and more particularly, to an access management system and method for managing access to the protected area of the authorized or unauthorized person.

Recently, as the awareness of access security increases, access management systems are recognized as an essential requirement in general enterprises, government offices and research institutes. In general, access control systems aim to protect people, property and information by restricting unnecessary access to protected areas in buildings.

In general, the access management system is applied to operate the access control terminal installed at the entrance of the protected area, and the access control server for controlling the access control terminals to control the access of the user. As such an access control terminal, a fingerprint recognition, a face recognition, an iris recognition, a vein recognition-based biometric terminal, or an RF terminal is generally applied.

The conventional access management system recognizes the user's right to access the protected area through the access control terminal and performs only the opening control for the door. Therefore, an unauthorized person enters the protected area while the door is opened by the access authorization. There is a problem that there is no provision for entering the case. In addition, even in the case of the access authorization, after the exit authentication from the protected area through the access control terminal, the case may remain in the protected area without actually leaving, but it is protected by the conventional access management system based on the access control terminal. There is a problem that the security is weak because there is a limit that does not recognize the remaining accessors in the area.

Furthermore, since the creation of access records for the protected area is dependent on the handwriting of the worker, there is a hassle of having to manually write the access record for every access or temporary access to the protected area. Human error (Human Error), such as coming in the process of creating access records by the existing existed.

Background art of the present invention is disclosed in Republic of Korea Patent Publication No. 10-2001-0071645 (published on July 31, 2001).

The present invention has been made to solve the above-described problems, an object according to an aspect of the present invention is to effectively determine whether there is an unauthorized person in the protected area, or whether the authorized person who has been removed from the protected area exists in the protected area, etc. Thus, access control system and method for more precisely performing access management in a protected area to remove security risks, and to remove inconvenience associated with the creation of access records that rely on conventional manual work.

In the access control system according to an aspect of the present invention, access authority information and user information for a protected area are set, and a user tag unit for transmitting a radio signal for recognizing a user's location in association with the user information, to the protected area. A location recognition unit for receiving a radio signal from the user tag unit through a plurality of antennas installed to recognize the location of the user in the protected area, and the access authority information and the user information set in the user tag unit. And an access management unit configured to manage the access of the user to the protected area by combining and authenticating the location of the user recognized by the location recognizing unit.

In the present invention, the position recognition unit, the antenna unit including a plurality of antennas installed in the protected area for receiving the radio signal from the user tag unit, respectively, and the strength of each of the radio signals received through the antenna unit And a location unit for recognizing a location of the user in the protected area based on the location.

In the present invention, the positioning unit is characterized by recognizing the location of the user in the protected area using a polygonal survey algorithm that changes dynamically as the user carrying the user tag in the protected area moves. .

In the present invention, the positioning unit, when the position of the user in the protected area is recognized as a position corresponding to a predetermined fixed facility, characterized in that for correcting the position of the user to a free space (Free Space).

In the present invention, the access management unit, by tracking the location of the user recognized by the location recognition unit (Tracking) is characterized in that for managing the movement of the user in the protected area.

In the present invention, the access management unit, based on the location of the user recognized by the location recognition unit, if it is determined that an unauthorized person who is a user who does not have access to the protected area is present in the protected area alarm It is characterized by generating.

In the present invention, the user tag unit includes an emergency operation unit for notifying an emergency situation, and the access management unit generates an alarm when it is determined that an emergency situation has occurred in the protected area according to the operation of the emergency operation unit of the user. It is characterized by.

In the present invention, the access management unit, the tagging information generated by tagging the user tag unit in the reader unit installed in the protected area to control the application information of the user for access of the protected area, the access to the protected area; And automatically generate an access record of the user for the protected area by using at least one of the user's locations recognized by the location recognizing unit.

According to an aspect of the present invention, there is provided an access management method, wherein a location recognition unit receives radio signals from a user tag unit through a plurality of antennas installed in a protected area, respectively, wherein the user tag unit is access authority information for the protected area. And setting user information and transmitting the wireless signal for recognizing a location of the user in association with the user information, wherein the location recognizing unit is configured to adjust the location of the user in the protected area based on each of the received wireless signals. Recognizing step, and the access management unit, combined with the access authority information and the user information set in the user tag unit authenticates the location of the user recognized by the location recognition unit to enter and exit the user of the protected area Characterized in that it comprises the step of managing.

According to an aspect of the present invention, the present invention is based on a user's access to the protected area based on a wireless signal for the user's location recognition associated with the user information, along with the user's access authority information and the user information for the protected area. By managing the access control in the protected area can be more accurately performed, and by automatically creating the access record based on the predetermined information, it is possible to eliminate the inconvenience caused when the access record created by the conventional manual work.

1 is a block diagram illustrating an access management system according to an embodiment of the present invention.
2 is an exemplary view showing an installation state of the antenna unit and the reader unit in the access control system according to an embodiment of the present invention.
3 is an exemplary view for explaining a user tag unit in the access control system according to an embodiment of the present invention.
4 is an exemplary view for explaining the operation of the access management system according to an embodiment of the present invention.
5 is an exemplary view for explaining a method of positioning by the positioning unit in the access management system according to an embodiment of the present invention.
6 is an exemplary diagram for describing a method of positioning by a positioning unit correcting a user's position in an access management system according to an exemplary embodiment of the present invention.
7 is an exemplary view showing a user's movement in the access control system according to an embodiment of the present invention.
8 to 11 are exemplary views for explaining a process of generating an alarm by the access management unit in the access management system according to an embodiment of the present invention.
12 is a flowchart illustrating an access management method according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the access control system and method according to the present invention. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a block diagram illustrating an access management system according to an embodiment of the present invention, Figure 2 is an exemplary view showing the installation state of the antenna unit and the reader unit in the access management system according to an embodiment of the present invention. 3 is an exemplary view for explaining a user tag unit in an access management system according to an embodiment of the present invention, Figure 4 is an exemplary view for explaining the operation of the access management system according to an embodiment of the present invention. 5 is an exemplary view for explaining how the positioning unit recognizes a user's position in the access management system according to an embodiment of the present invention, and FIG. 6 is a positioning unit in the access management system according to an embodiment of the present invention. 7 is an exemplary view for explaining a method of correcting a user's position, and FIG. 7 is an exemplary view showing a user's movement line in the access control system according to an embodiment of the present invention. 8 to 11 is an exemplary view for explaining a process in which the alarm is generated by the access management unit in the access management system according to an embodiment of the present invention.

Referring to FIG. 1, another access management system according to an embodiment of the present invention may include a user tag unit 100, a location recognition unit 200, and an access management unit 300.

In the user tag unit 100, access authority information and user information for a protected area may be set. Here, protected areas can be defined as all areas that need to be monitored for their access in order to protect secrets or property in general enterprises, government offices and research institutes. May include, for example, electrical rooms, machinery rooms, safes, archives or security equipment rooms.

In the user tag unit 100, user information that is information (eg, name, company number, etc.) about a user who possesses the user tag unit 100 may be set. Also, access authority information (eg, protection) for a protected area may be set. Authorization information or unauthorized information on the entrance and exit of the zone, access type information according to the regular access or temporary access, etc.) may be set. Accordingly, the user tag unit 100 is tagged to a predetermined reader unit (for example, an RF reader, a fingerprint reader, and a vein reader) installed in the protected area in order to control access to the protected area, thereby protecting the access authority of the user. The user's access to the zone can be authenticated. 2 illustrates an example in which an antenna unit 210 and a reader unit, which will be described later, are installed.

Meanwhile, in order to set access authority information and user information for a protected area in the user tag unit 100, the user tag unit 100 is an access card unit 110 (eg, an RF card, etc.) as shown in FIG. 3. In this way, the access card 110 in which the access authority information and the user information are set is tagged in the above-described reader unit, the user's access to the protected area can be authenticated.

In addition, the user tag unit 100 may transmit a radio signal for location recognition of the user, and specifically, may transmit a radio signal for location recognition of the user in association with the above-described user information.

Specifically, when managing the user's access to the protected area only through the user tag unit 100 and the reader unit described above, do not detect unauthorized persons entering the protected area in the state that the door is opened by the access authorization. There is also a problem that may not be able to detect the licensors remaining in the protected area in the state of leaving.

Thus, in this embodiment, the user tag unit 100 employs a configuration for continuously monitoring the user's position in the protected area through a method of continuously transmitting a radio signal for the user's location recognition.

That is, the user tag unit 100 transmits a radio signal for recognizing a user's location in association with user information, and the user exists in the protected area through the location recognition unit 200 and the access manager 300 to be described later. By allowing the location to be specified, access to protected areas can be managed and their security risks eliminated.

In order to transmit a wireless signal for recognizing a user's location, the user tag unit 100 may include a wireless tag unit 130 having a structure in which a wireless communication module is mounted inside a housing having a predetermined shape as shown in FIG. 3. The wireless tag unit 130 may transmit a wireless signal through short range wireless communication such as Bluetooth, Near Field Communication (NFC) or Wifi, and in the present embodiment, the wireless signal based on the Bluetooth wireless communication. Will be described as an embodiment in which is transmitted.

Meanwhile, the access card unit 110 and the wireless tag unit 130 may be combined in a predetermined manner to be carried by the user.

The location recognition unit 200 may recognize a location of a user in the protected area by receiving wireless signals from the user tag unit 100 through a plurality of antennas installed in the protected area. To this end, the location recognizing unit 200 is installed in the protected area, the antenna unit including a plurality of antennas for receiving the radio signal from the user tag unit 100, respectively, and the strength of each radio signal received through the antenna unit It may include a location unit 250 for recognizing the location of the user in the protected area based on. In addition, the location recognition unit 200 may further include a wireless access point (AP) terminal 230 for signal transmission between the antenna unit and the positioning unit 250.

The plurality of antennas included in the antenna unit may be installed at predetermined positions in the protection area. As will be described later, the positioning unit 250 may recognize the position of the user in the protected area by using the polygon surveying algorithm. Accordingly, the plurality of antennas may be located at a plurality of installation positions determined in advance in consideration of the application of the polygon surveying algorithm. Each can be installed. Each wireless signal received through the antenna unit may be transmitted to the positioning unit 250 through the wireless AP terminal 230 as shown in FIG. 4.

The positioning unit 250 may recognize the location of the user in the protected area based on the received signal strength indicator (RSSI) of each radio signal received through the antenna unit. That is, when a plurality of antennas included in the antenna unit are installed according to the example shown in FIG. 4, the positioning unit 250 is based on the difference between the strengths of the radio signals received through each antenna, and thus the user in the protected area. Can recognize the location of. The positioning unit 250 may be implemented as a positioning server that recognizes a location of a user based on a difference between strengths of wireless signals.

In detail, the positioning unit 250 may recognize the position of the user in the protected area using a polygonal survey algorithm that changes dynamically as the user carrying the user tag unit 100 moves in the protected area.

Referring to the example shown in FIG. 5, when the user is in the position shown in FIG. 5 (a) within the protected area, the three antennas 211, 212, 213 can receive the radio signal at a strength greater than a certain intensity. Accordingly, the positioning unit 250 may recognize the position of the user in the protected area based on the difference between the strengths of the radio signals received through the three antennas 211, 212, 213 according to the triangulation algorithm. Can be.

Then, when the user moves to the position shown in Figure 5 (b) in the protected area, five antennas (211, 212, 213, 214, 215) will receive a radio signal with a strength of a certain intensity or more, so Accordingly, the positioning unit 250 recognizes the position of the user in the protected area based on the difference between the strengths of the respective radio signals received through the five antennas 211, 212, 213, 214, and 215 according to a pentagonal survey algorithm. can do.

That is, the positioning unit 250 increases the location recognition accuracy by recognizing the location of the user in the protected area using a polygonal surveying algorithm that changes dynamically as the user carrying the user tag unit 100 moves in the protected area. Can be.

On the other hand, the positioning unit 250 may correct the user's position as a free space when the position of the user in the protected area is recognized as a position corresponding to a predefined fixed facility.

Specifically, a predetermined error may exist in the position of the user recognized by the positioning unit 250 according to the number of antennas included in the antenna unit or attenuation of the radio signal, and according to the error, the position of the user in the protected area may be If it is recognized as a location corresponding to a predefined fixed facility (wall, door, equipment, etc.) (the location corresponding to the fixed facility may be preset in the positioning unit 250 in the form of coordinates), 250 may correct the user's position to free space (ie, empty space) as shown in FIG. 6.

The access management unit 300 may manage the access of the user to the protected area by combining and authenticating the location of the user recognized by the location recognition unit 200 together with the access authority information and the user information set in the user tag unit 100. have. That is, the access management unit 300 is implemented as a predetermined access management server, and the access authority information and the user information obtained by tagging the user tag unit 100 to the above-described reader unit and recognized by the location recognition unit 200. Combination of the authorized user's location allows the user to manage access to the protected area. On the other hand, the present embodiment is an access management interface unit 400 for allowing the administrator to manage the user's access through the access management unit 300, for example, a computing device such as a PC equipped with input and output devices such as a monitor and keyboard) It may further include.

The access management unit 300 may track the location of the user recognized by the location recognition unit 200 to manage the user's movement in the protected area.

That is, a user who wants to enter a protected area may need to apply for access to the protected area in advance through a predetermined work plan that reflects the contents of the work in the protected area. You may need to perform only the work reflected. Therefore, the access management unit 300 tracks the location of the user recognized by the location recognizing unit 200 as shown in FIG. 7 to grasp the movement of the user in the protected area so that the user is reflected in the work plan. You can determine whether or not the content is performed, and if the user's movement does not correspond to the work reflected in the work plan (for example, the work location where the user stayed for a while and the work reflected in the work plan). If the location of the equipment does not match), as shown in Figure 8 through the access management interface 400 can be managed the user's access to the protected area in a manner that generates an alarm of the user's position.

In addition, the access management unit 300 may generate an alarm based on the location of the user recognized by the location recognizing unit 200 when an unauthorized person who is a user who does not have access to the protected area is present in the protected area. Can be.

That is, as described above, the user tag unit 100 may transmit a radio signal for recognizing the location of the user in association with the user information. Accordingly, the access management unit 300 may transmit the location of the user together with the information of the user. It can be specified. If, based on the information of the user located in the protected area, it is determined that an unauthorized person who does not have access to the protected area exists in the protected area (e.g., the unauthorized person enters the protected area while the door is opened by the authorized person). When entering), the access management unit 300 may generate an alarm through the access management interface 400 as shown in FIG.

On the other hand, the user tag unit 100 of the present embodiment may include an emergency operation unit 150 for notifying an emergency situation, accordingly, the access management unit 300 according to the operation of the user's emergency operation unit 150 protected area If it is determined that an emergency situation has occurred in the system, an alarm may be generated.

In detail, the user tag unit 100 includes an emergency situation (eg, a user's body abnormality, an outside person inside the protected area, a fire inside the protected area, etc.) occurring in the protected area together with a wireless signal for recognizing the location of the user. The emergency signal for notifying the user may be transmitted according to the operation of the emergency operation unit 150 of the user. The emergency operation unit 150 may be implemented to include a button type switch formed in the housing of the wireless tag unit 130, and a wireless communication module that transmits an emergency signal according to an operation of the switch. Accordingly, when it is determined that an emergency situation occurs in the protected area according to the operation of the user's emergency operation unit 150, the access management unit 300 may generate an alarm through the access management interface unit 400 as shown in FIG. 10. have.

Meanwhile, as illustrated in FIG. 11, the access management unit 300 receives the remaining amount information of the battery mounted on the user tag unit 100 to supply the operation power of the wireless tag unit 130 from the user tag unit 100. An alarm regarding the remaining battery level may be generated through the access management interface 400.

In addition, the access management unit 300 of the present embodiment is a tagging generated by the user tag unit 100 is tagged in the reader unit installed in the protected area to control the application information of the user for access to the protected area, the access to the protected area The access record of the user to the protected area may be automatically generated using at least one of the information and the location of the user recognized by the location recognizing unit 200.

Specifically, as described above, the user who wants to enter the protected area may need to perform an application for access to the protected area in advance through a predetermined work plan reflecting the contents of the work in the protected area. 300 may automatically generate an access record of a user for the protected area by using the user's application information for access to the protected area.

In addition, the access management unit 300 is protected area by using the tagging information (that is, access authority information, user information, protected area, entrance and exit room, other information, etc.) generated by tagging the user tag unit 100 in the reader unit The access record of the user may be automatically generated, and further, the user's access record for the protected area may be automatically generated by using the user's location recognized by the location recognizing unit 200.

The access management unit 300 may automatically generate an access record by combining one or more of the above-described application information, tagging information, and information on the location of the user, and based on each of the application information, tagging information, and information on the location of the user. In addition, access records can be generated and managed separately. When generating the access record based on each of the application information, the tagging information, and the information on the location of the user, the order of generating the access record is not limited to a specific order.

By automatically generating the access record for the protected area through the access management unit 300, it is possible to remove the inconvenience caused when the access record was created, which was dependent on the conventional manual work.

12 is a flowchart illustrating an access management method according to an embodiment of the present invention.

Referring to FIG. 12, the access management method according to an embodiment of the present invention will be described. First, the location recognition unit 200 receives wireless signals from the user tag unit 100 through a plurality of antennas installed in a protected area. (S100). Here, the user tag unit 100 is set to the access authority information and user information for the protected area and operates to transmit a radio signal for the user's location recognition in association with the user information.

Subsequently, the location recognizing unit 200 recognizes the location of the user in the protected area based on each wireless signal received in step S100 (S200).

In operation S200, the location recognizing unit 200 may recognize the location of the user in the protected area based on the strength of each received wireless signal, and specifically, the user who has the user tag unit 100 in the protected area. By using the multi-angular survey algorithm that changes dynamically as we move, we can recognize the user's location in the protected area.

In addition, in step S200, if the location of the user is recognized as a location corresponding to a predetermined fixed facility in the protected area, the location recognition unit 200 may correct the location of the user to a free space (Free Space).

Subsequently, the access management unit 300 manages the access of the user to the protected area by combining and authenticating the location of the user recognized by the location recognition unit 200 together with the access authority information and the user information set in the user tag unit 100. (S300).

In operation S300, the access management unit 300 may track the location of the user recognized by the location recognition unit 200 to manage the user's movement in the protected area.

In addition, in step S300, the access management unit 300 is based on the location of the user recognized by the location recognition unit 200, if it is determined that an unauthorized user who does not have access to the protected area exists in the protected area. It can trigger an alarm.

On the other hand, the user tag unit 100 of the present embodiment may include an emergency operation unit 150 for notifying the emergency situation, accordingly, in step S300 access control unit 300 to the operation of the user's emergency operation unit 150 Therefore, if it is determined that an emergency situation has occurred in the protected area, an alarm can be generated.

Furthermore, in step S300, the access management unit 300 is generated by tagging the user tag unit 100 in the reader unit installed in the protected area to control the user's application information, access to the protected area for access to the protected area. By using one or more of the tagging information and the location of the user recognized by the location recognizing unit 200 may automatically generate a user's access record for the protected area.

As described above, the present embodiment manages the user's access to the protected area based on a wireless signal for recognizing the location of the user associated with the user information, together with the user's access authority information and the user information about the protected area. The access management can be performed more accurately, and by automatically creating an access record based on predetermined information, it is possible to eliminate the inconvenience caused when the access record is created by the conventional manual work.

The present invention has been described above with reference to the embodiments shown in the drawings, but this is merely exemplary, and various modifications and equivalent other embodiments are possible from those skilled in the art. I will understand the point. Therefore, the technical protection scope of the present invention will be defined by the claims below.

100: user tag section
110: access card
130: wireless tag unit
150: emergency operation unit
200: location recognition unit
210: antenna unit
230: wireless AP terminal
250: location
300: access control
400: access management interface

Claims (16)

A user tag unit configured to set access authority information and user information for a protected area, and transmit a radio signal for recognizing a user's location in association with the user information;
A location recognizing unit configured to recognize a location of the user in the protected area by receiving radio signals from the user tag unit through a plurality of antennas installed in the protected area; And
An access management unit configured to manage the access of the user to the protected area by combining and authenticating the location of the user recognized by the location recognizing unit together with the access authority information and the user information set in the user tag unit;
Access management system comprising a.
The method of claim 1,
The location recognizing unit may include an antenna unit including a plurality of antennas installed in the protected area and receiving wireless signals from the user tag unit, and the strength of each of the wireless signals received through the antenna unit. And a positioning unit for recognizing the location of the user in the zone.
The method of claim 2,
And the positioning unit recognizes the location of the user in the protected area using a polygonal survey algorithm that changes dynamically as the user who carries the user tag in the protected area moves.
The method of claim 2,
And the positioning unit corrects the position of the user to a free space when the position of the user in the protected area is recognized as a position corresponding to a predefined fixed facility.
The method of claim 1,
And the access management unit tracks the location of the user recognized by the location recognizing unit to manage the movement of the user in the protected area.
The method of claim 1,
The access management unit generates an alarm based on the location of the user recognized by the location recognizing unit, and generates an alarm when it is determined that an unauthorized person who is a user who does not have access authority to the protected area exists in the protected area. Access control system.
The method of claim 1,
The user tag unit includes an emergency operation unit for notifying an emergency situation,
And the access control unit generates an alarm when it is determined that an emergency situation occurs in the protected area according to the operation of the emergency operation unit by the user.
The method of claim 1,
The access management unit, the application information of the user for the access of the protected area, tagging information generated by tagging the user tag unit in the reader unit installed in the protected area to control the access to the protected area, and the location And an access record of the user for the protected area is automatically generated by using at least one of the user's locations recognized by the recognition unit.
The location recognizing unit receives wireless signals from the user tag unit through a plurality of antennas installed in the protected area, respectively, wherein the user tag unit is configured with access authority information and user information for the protected area and recognizes the user's location. Transmitting the wireless signal for use in association with the user information;
Recognizing, by the location recognizing unit, the location of the user in the protected area based on each of the received wireless signals; And
Managing, by the access management unit, the access of the user to the protected area by combining and authenticating the location of the user recognized by the location recognizing unit together with the access authority information and the user information set in the user tag unit;
Access management method comprising a.
The method of claim 9,
In the recognizing step, the location recognition unit,
And recognizing the location of the user in the protected area based on the strength of each received wireless signal.
The method of claim 10,
In the recognizing step, the location recognition unit,
And the location of the user in the protected area using a polygonal survey algorithm that changes dynamically as the user carrying the user tag part moves in the protected area.
The method of claim 10,
In the recognizing step, the location recognition unit,
And when the position of the user in the protected area is recognized as a position corresponding to a predefined fixed facility, correcting the position of the user to a free space.
The method of claim 9,
In the managing step, the access management unit,
And tracking the location of the user recognized by the location recognizing unit to manage the movement of the user in the protected area.
The method of claim 9,
In the managing step, the access management unit,
On the basis of the location of the user recognized by the location recognizing unit, the access management method characterized in that to generate an alarm if it is determined that an unauthorized person who does not have access to the protected area exists in the protected area. .
The method of claim 9,
The user tag unit includes an emergency operation unit for notifying an emergency situation,
In the managing step, the access management unit,
And an alarm is generated when it is determined that an emergency situation has occurred in the protection zone according to the operation of the emergency operation unit by the user.
The method of claim 9,
In the managing step, the access management unit,
Application information of the user for access to the protected area, tagging information generated by tagging the user tag unit to a reader installed in the protected area to control access to the protected area, and recognized by the location recognition unit And automatically generating an access record of the user for the protected area using at least one of the user's locations.

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