JP2019194877A - Security control system that permits entrance and security control method therefor - Google Patents

Abstract

To provide a security control method that permits entrance of a visitor into a premise.SOLUTION: A security control method includes a step 1100 of determining an identification tag, a step 1200 of sending the identification tag to a visitor, a step 1300 of scanning the identification tag of the visitor, a step 1400 of authenticating the identification tag, a step 1500 of generating an approval signal if the authentication result of the identification tag is affirmative, a step 1600 of distributing an identification token to the visitor if the approval signal is received, a step 1700 of scanning the identification token of the visitor, and a step 1800 of authenticating the identification token to permit entrance of the visitor into a premise.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a security control system configured to allow a visitor to enter a premises and a security control method thereof.

  In a premises that require a security function, it is common to find security personnel at specific locations within the premises, such as building entrances, reception counters, loading bays, parking lot entrances, and the like. Usually, at least one security guard / guide is located at the location where the visitor is checked, and the visitor obtains a security pass for entering the premises in exchange for some form of identification information.

  Sometimes the level of security checks is relatively low. Visitor checks may not be performed properly due to human factors. Thus, the registration process at the security site is little or no use. Further, it is almost impossible to control the location / movement of the visitor after the security pass is issued. I often hear that security breaches are taking place in high security premises with well-equipped security equipment. Building owners can increase the number of security personnel to improve security on the premises. However, in many cases, increasing the number of security personnel does not lead to improved security on the premises. Sometimes security personnel do not even check the visitor, leaving the visitor free to enter the premises. In such a case, it is impossible to know when the person has entered or exited the campus, and even more, who has remained on the campus after the end of work.

  Therefore, it is necessary to implement a security control system and a security control method that solve the above-described problems.

  According to various embodiments, the present invention provides a security control method that allows visitors to enter the premises. The security control method includes a step of determining an identification tag, a step of transmitting the identification tag to a visitor, a step of scanning the visitor's identification tag, a step of authenticating the identification tag, and an authentication result of the identification tag being positive. Generating an authorization signal if appropriate, delivering an identification token to the visitor upon receipt of the authorization signal, scanning the visitor's identification token, authenticating the identification token and visiting the premises And allowing the person to enter.

  According to various embodiments, a security control method includes receiving visitor personal data.

  According to various embodiments, the security control method further includes authenticating personal data.

  According to various embodiments, the security control method further includes recovering the identification token from the visitor.

  According to various embodiments, the security control method further includes authenticating the identification token.

  According to various embodiments, the security control method including the step of transmitting the identification tag includes electronic transmission.

  According to various embodiments, a security control method that includes scanning an identification tag includes optically scanning the identification tag.

  According to various embodiments, the security control method further includes the step of replicating the identification tag.

  According to various embodiments, replicating the identification tag includes at least one of printing the identification tag on a printable medium and displaying the identification tag on a screen of the electronic device.

  According to various embodiments, the identification tag includes an optically readable image.

  According to various embodiments, the optically readable image includes at least one of a barcode or a quick response code.

  According to various embodiments, scanning the identification token includes at least one of high frequency scanning or magnetic scanning.

  According to various embodiments, the identification token includes at least one of a high frequency identification chip or a magnetically readable portion.

  According to various embodiments, the present invention provides a security control system configured to allow visitors to enter the premises. The security control system includes a determination circuit configured to determine an identification tag, a transmitter configured to transmit the identification tag to a visitor, and a first scanner configured to scan the visitor's identification tag. A first authentication circuit configured to authenticate the identification tag, a generator configured to generate an approval signal if the authentication result of the identification tag is positive, and a configuration configured to distribute the identification token A distributor, a second scanner configured to scan the identification token, and a second authentication circuit configured to authenticate the identification token and allow visitors to enter the premises.

  According to various embodiments, the security control system is configured to receive visitor personal data.

  According to various embodiments, the first authentication circuit is configured to authenticate personal data.

  According to various embodiments, the security control system further includes a recovery unit adapted to recover the identification token.

  According to various embodiments, the identification tag includes an optically readable image.

  According to various embodiments, the optically readable image includes at least one of a barcode or a quick response code.

  According to various embodiments, the identification token includes at least one of a high frequency identification chip or a magnetically readable portion.

  The present invention provides a security control system and a security control method that solve the above-described problems. The present invention provides a higher level security check for the campus and keeps track of the location of visitors on the campus. The security control system and security control method can also eliminate or otherwise minimize security personnel located at the security site. Thus, the cost of human resources can be reduced by reducing the required manpower.

  The security control system of the present invention is a self-service that can be used to complement an existing security system so that it can be used in cooperation with an identification token such as a security pass and a security system that distributes an identification token using gantry access. Provide kiosk. The self-service kiosk may be used together with a security access system such as a security pass system so as to be a security kiosk in which the building security access system and the self-service kiosk are integrated. Self-service kiosks may be used to enhance existing security access systems and, as explained at the outset, overcome the shortcomings of current security scenarios and provide better security check procedures, It may be used to minimize loopholes. The object of the present invention is to provide a highly reliable security solution that realizes a high level security check, for example 100% security check, and guarantees improved visitor entrance control and on-site mobility monitoring performance. Is to provide.

1 shows a schematic diagram of a security control system according to various embodiments. FIG. 1 shows a schematic diagram of a security control system according to various embodiments. FIG. 2 shows a security control method using the security control system of FIG.

  FIG. 1 shows a security control system 100. The security control system 100 is configured to permit the visitor 10 to enter the premises 20 such as a complex facility, a building, an office, or the like. Security control system 100 scans decision circuit 110 configured to determine identification tag 12, transmitter 120 configured to transmit identification tag 12 to visitor 10, and identification tag 12 of visitor 10. A first scanner 130 configured to authenticate, a first authentication circuit 140 configured to authenticate the identification tag 12, and a signal configured to generate an approval signal if the authentication result of the identification tag 12 is positive. A generator 150, a distributor 160 configured to distribute the identification token 14, a second scanner 170 configured to scan the identification token 14, and a visit into the premises 20 by authenticating the identification token 14 And a second authentication circuit 180 configured to allow the person 10 to enter.

  In other words, the security control system 100 may be a self-service kiosk that issues an identification token such as a security pass to a visitor. The security control system 100 issues an identification tag 12 in advance to the visitor 10 from the campus 20 before the host 10 reaches the campus 20, for example, and the visitor 10 exchanges the identification tag 12 for the visitor 10. An identification token 14 for obtaining permission to enter the premises 20 can be obtained. The host 30 may be a person who starts transmission of the identification tag 12. Host 30 may be a premises tenant and / or security personnel. The security control system 100 can determine the identification tag 12 when requested by the host 30. Once the host has determined the identification tag 12, it can use the transmitter 120 to send the identification tag 12 to the visitor 10. The visitor 10 can scan the identification tag 12 with the first scanner 130 while staying in the premises 20. During scanning, the first authentication circuit 140 authenticates the identification tag 12 and determines whether or not the identification tag 12 is valid. If valid, an approval signal is sent to the distributor 160 to distribute the identification token 14. The visitor 10 can then use the identification token 14 to obtain permission to enter the premises 20.

  The security control system 100 may include a registration module (not shown in FIG. 1) that registers the identification information of the host 30 when starting the determination of the identification tag 12 and transmission to the visitor 10. The host 30 may have a security access code, such as a password, to log on to the registration module before starting. When the host 30 logs on to the registration module to initiate determination and transmission, the security control system 100 can obtain the personal data of the host 30 associated with the security access code to identify the host 30. In this manner, identification information of a person who is permitted to enter a visitor can be acquired.

  The decision circuit 110 may be connected to the transmitter 120. The determination circuit 110 may be connected to the transmitter 120 via a bus such as a conductive wire or an optical fiber. The determination circuit 110 can determine the identification tag 12 and transmit the identification tag 12. The decision circuit 110 can electronically transmit the identification tag to the transmitter 120. The transmitter 120 can then electronically transmit the identification tag 12 to the visitor 10.

  FIG. 2 shows schematic diagrams according to various embodiments. As shown in FIG. 2, the decision circuit 110 may be connected to a central processing unit 102 such as a CPU configured to process signals. The central processing unit 102 may be connected to a data storage 104 configured to store data such as identification tags, visitor personal and access data, for example. The decision circuit 110 can generate the identification tag 12. The decision circuit 110 can obtain the identification tag 12 from the data storage 104.

  The transmitter 120 may be an electronic device configured to transmit the identification tag 12 to the visitor 10. The transmitter 120 may be connected to the central processing unit 102. The transmitter 120 may be a computer terminal having an email application configured to allow the host 30 to send email to the visitor 10. The transmitter 120 may be a communication device configured such that the host 30 can transmit an identification tag 12 such as an image to a visitor. The communication device may be a mobile device such as a mobile phone.

  The identification tag 12 may include an optically readable image. The optically readable image may include at least one of a barcode or a quick response code. The optically readable image can be transmitted via the Internet or a mobile communication system. The optically readable image can be sent to the visitor via e-mail or via a short message service (SMS) or the like.

  The first scanner 130 may be an optical scanner configured to scan the identification tag 12. The visitor 10 can duplicate the identification tag 12 for the purpose of causing the first scanner 130 to scan the identification tag 12. The first scanner 130 may be an image acquisition device such as a camera. As shown in FIG. 2, the first scanner 130 may be connected to the central processing unit 102 so that the first scanner 130 can transmit the image signal of the identification tag 12 to the central processing unit 102. The central processing unit 102 can transmit the image signal to the first authentication circuit 140.

  The visitor 10 can duplicate the identification tag 12 by printing on a printable medium such as paper, or by displaying the identification tag 12 on a screen of a mobile device such as a mobile phone. In the case of a printable medium, the first scanner 130 may be an optical scanner that scans the identification tag 12 or an image acquisition device that acquires the identification tag 12. In the case of a mobile device screen that displays the identification tag 12, the first scanner 130 may be an image acquisition device that acquires an image of the identification tag 12 on the screen before authentication.

  The security control system 100 may be configured to receive visitor 10 personal data. The host 30 can request the provision of visitor 10 personal data for authentication and / or recording purposes. Personal data may be stored in the data storage 104.

  The first authentication circuit 140 may be configured to authenticate the identification tag 12 when an image signal is received. The first authentication circuit 140 may be connected to the central processing unit 102. The central processing unit 102 can acquire the authentication data of the identification tag 12 from the data storage 104. The first authentication circuit 140 can authenticate the image signal of the identification tag 12 based on the authentication data. The first authentication circuit 140 may be connected to the signal generator 150 so that if the authentication result of the image signal is positive, the first authentication circuit 140 activates the signal generator 150 to generate an approval signal. The signal generator 150 may be connected to the central processing unit 102. The first authentication circuit 140 may be connected to the distributor 160. Once the signal generator 150 has generated the approval signal, it can send the approval signal to the distributor 160 to distribute the identification token 14.

  The first authentication circuit 140 may be configured to authenticate the personal data of the visitor 10. At the time of scanning the identification tag 12, a terminal having a user interface may be provided for the visitor 10 to enter personal data. When the first authentication circuit 140 receives personal data, the first authentication circuit 140 can authenticate the personal data based on the personal data stored in the data storage 104. If the authentication result of the identification tag 12 and the personal data is positive, the first authentication circuit 140 can activate the signal generator 150 to generate an approval signal. The first authentication circuit 140 may be connected to the distributor 160. Once the signal generator 150 has generated the approval signal, it can send the approval signal to the distributor 160 to distribute the identification token 14.

  Distributor 160 may be a distribution machine configured to distribute identification token 14. The visitor 10 can receive the identification token 14 from the distributor 160 if the identification tag 12 is scanned and the authentication result is positive. The distributor 160 may be configured to encode the identification token 14 together with access data such as personal information, date and time, and stay time, for example. The distributor 160 may be connected to the central processing unit 102 to exchange data with the central processing unit 102.

  The identification token 14 may include an optically readable image. The optically readable image may include at least one of a barcode or a quick response code. The identification token 14 may be a magnetic token so that the identification token 14 can be magnetically “scanned”. The identification token 14 may include a magnetically readable portion. The identification token 14 may be a radio frequency identification (RFID) tag. The identification token 14 may include an RFID chip. The identification token 14 may be in the form of a card, stick, or button, such as a security pass. The identification token 14 may have a security function embedded in at least one of a microchip, a magnetic strip, RFID, and the like. The identification token 14 may be scanned with the second scanner 170.

  The second scanner 170 may be at least one of an optical scanner, a magnetic scanner, or an RFID scanner. The second scanner 170 may be connected to the second authentication circuit 180. After scanning the identification token 14, the scanned signal can be transmitted to the second authentication circuit 180 so that the scanned signal can be authenticated. The second authentication circuit 180 may be connected to the central processing unit 102. The central processing unit 102 can obtain authentication data from the data storage 104 via the central processing unit 102, and authentication of the scanned signal of the identification token 14 may be performed based on the authentication data. The visitor 10 may be permitted to enter the premises 20 if the authentication result of the identification token 14 is positive.

  Campus 20 may include a gate 22 adapted to control visitor 10 entry into campus 20 as shown in FIG. The security control system 100 may be connected to the gate 22 so that the security control system 100 can prevent the visitor 10 from entering the premises 20 and the closed state to prevent the visitor 10 from entering the premises 20. It is configured to control the operation of the gate 22 between the permitted open state. The gate 22 can be controlled to open to allow the visitor 10 to enter the premises if the authentication result of the identification token 14 is positive. The gate 22 may be a kiosk, a rotary ticket gate, or a gantry, a door or the like having a co-preventing function.

  With reference to FIG. 1, the security control system 100 may include a collector 190 adapted to recover the identification token 14. When the visitor 10 leaves the premises 20, the visitor 10 can return the identification token 14 to the collector 190. The collector 190 may be configured to identify the identification token 14 and to extract access data from the data storage 104 based on the identification token 14 such as, for example, withdrawal time, visit area, and the like. With reference to FIG. 2, the collector 190 may be connected to the central processing unit 102. The collector 190 and the distributor 160 may be connected to each other. The collection device 190 and the distribution device 160 may be housed in the same housing so that the identification token 14 collected by the collection device 190 can be transmitted to the distribution device 160 for distribution to the next visitor. The campus 20 may include a scanner that allows the visitor 10 to scan the identification token 14 when the visitor enters an area within the campus 20, such as a room. Thus, the security control system 100 can register the time and area where the visitor 10 entered. The host 30 may have the authority to restrict access to specific areas within the premises 20, such as a car lift, floor, room, and the like. In this case, the host 30 can allow the visitor 10 to enter and leave only a specific area within the premises 20. By collecting and registering the identification token 14, the security control system 100 can check whether the visitor 10 remains in the premises 20 at the end of business hours or one day. At the same time, the security control system 100 would be able to track visitor 10 movement within the premises 20.

  FIG. 3 shows a security control method 1000 that permits the visitor 10 to enter the premises 20. In step 1100, the identification tag 12 is determined. The identification tag 12 is transmitted to the visitor 10 at step 1200. In step 1300, the visitor 10 identification tag 12 is scanned. In step 1400, the identification tag 12 is authenticated. If the authentication result of the identification tag 12 is positive, an approval signal is generated at step 1500. If the approval signal is received, the identification token 14 is delivered to the visitor 10 at step 1600. In step 1700, visitor 10's identification token 14 is scanned. At step 1800, the identification token 14 is authenticated and the visitor 10 is permitted to enter the premises 20.

  FIG. 3 shows a security control method 1000 used for security purposes. If the host 30 expects the visitor 10 to visit the premises 20, the host 30 uses the decision circuit 110 to determine the identification tag 12 and uses the transmitter 120 to send the identification tag 12 to the visitor 10. Can be sent to. The host 30 that recognizes the date and time of the visit can set the date and time when the identification tag 12 is valid and permit entry. The host 30 can also set a stay time during which the visitor 10 can stay on the premises. The host 30 can transmit the identification tag 12 via electronic transmission. The host 30 can send the identification tag 12 from each of the person's computer terminal and / or mobile device to the visitor 10 via email or a short message. The visitor 10 can receive the identification tag 12 at his computer terminal and / or mobile device. The host 30 may require the visitor 10 to provide personal data for authentication and / or recording purposes for additional security. The visitor 10 can then transfer the requested personal data to the host 30 either electronically or via telephone. Security control system 100 can then receive the personal data of visitor 10 and store the personal data in a data storage.

  When the visitor 10 visits the premises 20 of the host 30, by printing the identification tag 12 on a printable medium in advance, or by displaying the identification tag 12 on the screen of an electronic device such as a mobile device, The identification tag 12 can be duplicated. The visitor 10 can display the identification tag 12 for scanning by the first scanner 130.

  The identification tag 12 may be optically scanned by the first scanner 130. Scanning the identification token 14 may include high frequency scanning and / or magnetic scanning. The first scanner 130 scans the identification tag 12 and transmits the image signal of the identification tag 12 to the central processing unit 102, and then the central processing unit 102 transmits the image signal to the first authentication circuit 140. it can.

  The visitor 10 can be requested to provide personal data via the user interface of the terminal. The first authentication circuit 140 can authenticate the identification tag 12 and personal data as required based on the authentication data and personal data stored in the data storage 104. When the authentication result is affirmative, the first authentication circuit 140 activates the signal generator 150 to generate an approval signal and transmits the approval signal to the distributor 160 to distribute the identification token 14 to the visitor 10. can do. On the other hand, if the authentication result is negative, the security control system 100 notifies the visitor to that effect and refuses the visitor 10 to enter the premises 20.

  When the visitor 10 receives the identification token 14, the visitor 10 can present the identification token 14 to the second scanner 170 for scanning. The identification token 14 may be configured to set a staying time and area where the visitor 10 can stay on the premises based on the constraints set by the host 30. After scanning, the scanned signal can be sent to the second authentication circuit 180 for authentication. The identification token 14 can be authenticated. Authentication of the identification token 14 may be performed based on authentication data stored in the data storage 104. If the authentication result is positive, the gate 22 can be opened to allow the visitor 10 to enter the premises 20. However, if the authentication result is negative, the gate 22 is still closed to prevent entry into the premises 20.

  When the visitor 10 leaves the premises 20, the visitor 10 can return the identification token 14 to the collector 190. The identification token 14 may be recovered from the visitor 10 and stored in the recovery device 190. When the collection unit collects the identification token 14, the collection unit 190 may obtain information on the visitor 10, such as the time when the visitor 10 leaves the premises 20 and the area within the premises 20 where the visitor 10 entered. it can. The security control system 100 may be configured to notify the host 30 when the visitor 10 is staying past the set stay time or the set end time of the visit. The host 30 may be authorized to extend the time a visitor can stay. The host 30 can access the registration module, eg, log on to extend the time. The security control system 100 may be configured to generate the number of visitors 10 who will stay on the premises 20 at any given time. The security control system 100 may be configured to generate a list of visitor names and / or visitor locations at any time as requested by the host 30 or authorized security personnel. Thus, it may be useful for the host 30 or security personnel to know where and where one or more visitors are at any point in time, such as in an emergency evacuation.

  As shown, the security control method 1000 and the security control system 100 provide a high level of security for the campus 20. A visitor 10 to the premises 20 is known to the host 30 in advance. In a sense, the visitor 10 is checked by the host 30 before the visit. At the same time, the host 30 recognizes the visitor 10 before permitting the visitor 10 to enter the premises 20 and transmitting the identification tag 12 to the visitor 10. A visitor 10 visiting the premises 20 can enter the premises 20 according to his / her convenience within the allocated time of visit set by the host 30 without seeking the help of security personnel. In this way, all the visitors 10 to the premises 20 are checked, and there is no risk of a check omission of the visitors 10. Further, the host 30 can know the position of the visitor 10 at an arbitrary time, and the duration of the visit by the visitor 10 can also be known. At the end of each day, the host 30 can know whether all visitors 10 have been removed from the premises 20 so that night security is not disabled by the intentionally remaining visitors 10. Visitor 10 may be any person who includes staff working at the premises and does not have a valid security permit but wishes to enter the premises.

  The security control system 100 may include a memory used for processing executed by the security control method, for example. The memory used in the above-described embodiment is, for example, a volatile memory such as DRAM (dynamic random access memory), or a PROM (programmable read only memory), EPROM (erasable PROM), EEPROM (electrically erasable PROM) Or a flash memory such as a floating gate memory, a charge trapping memory, an MRAM (magnetoresistance random access memory), or a PCRAM (phase change random access memory).

  In one embodiment, a “circuit” may be understood as any type of logic implementation, and may be a dedicated circuit or processor that executes software stored in memory, firmware, or any combination thereof. Thus, in one embodiment, a “circuit” is a wired or programmable logic circuit such as a programmable processor, eg, a microprocessor (eg, a complex instruction set computer (CISC) processor or a reduced instruction set computer (RISC) processor). It may be. A “circuit” may also be a processor that executes software, eg, any type of computer program, eg, a computer program using virtual machine code such as Java. Any other type of implementation of each function described in further detail below may also be understood as a “circuit” in accordance with alternative embodiments.

According to various embodiments, the present invention determines an identification tag when a host on the premises initiates transmission of the identification tag to the visitor to allow the visitor to enter the premises. Accordingly, a security control method in a security control system configured to receive an initial request from a host on the premises is provided. The security control method includes the steps of a security control system determining an identification tag based on an initial request received from a host , transmitting the identification tag to a visitor, scanning the visitor's identification tag, Authenticating the identification tag, generating an approval signal indicating that the visitor is permitted to enter the premises if the authentication result of the identification tag is positive, and receiving the approval signal to the visitor. A method of performing a process comprising: distributing an identification token; scanning a visitor's identification token; and authenticating the identification token to permit the visitor to enter the premises.

According to various embodiments, the present invention is configured to allow visitors to enter the premises and determines the identification tag when a host on the premises initiates transmission of the identification tag to the visitor. Accordingly, a security control system is provided that is configured to receive an initial request from a host on the premises . The security control system includes a decision circuit configured to determine an identification tag based on an initial request received from the host , a transmitter configured to transmit the identification tag to the visitor, and a visitor identification tag. A first scanner configured to scan, a first authentication circuit configured to authenticate the identification tag, and a visitor is permitted to enter the premises if the identification tag authentication result is affirmative A generator configured to generate an approval signal indicating a recognition signal, a distributor configured to distribute the identification token to a visitor upon receipt of the approval signal, and a second configured to scan the identification token. And a second authentication circuit configured to authenticate the identification token and allow visitors to enter the premises.

Claims (20)

A security control method that allows visitors to enter the premises,
Determining an identification tag;
Sending the identification tag to the visitor;
Scanning the identification tag of the visitor;
Authenticating the identification tag;
Generating an approval signal if the authentication result of the identification tag is positive;
Delivering an identification token to the visitor upon receipt of the approval signal;
Scanning the visitor's identification token;
Authenticating the identification token and allowing the visitor to enter the premises;
Including methods.   The security control method according to claim 1, further comprising receiving the visitor's personal data.   The security control method according to claim 1, further comprising a step of authenticating the personal data.   The security control method according to claim 1, further comprising a step of collecting the identification token from the visitor.   The security control method according to claim 4, further comprising authenticating the identification token.   The security control method according to claim 1, wherein the step of transmitting the identification tag includes electronic transmission.   The security control method according to claim 1, wherein the step of scanning the identification tag includes a step of optically scanning the identification tag.   The security control method according to claim 1, further comprising a step of copying the identification tag.   The security control method according to claim 8, wherein the step of copying the identification tag includes at least one of printing the identification tag on a printable medium or displaying the identification tag on a screen of an electronic device.   The security control method according to claim 1, wherein the identification tag includes an optically readable image.   The security control method according to claim 1, wherein the optically readable image includes at least one of a bar code and a quick response code.   The security control method according to claim 1, wherein the step of scanning the identification token includes at least one of high-frequency scanning or magnetic scanning.   The security control method according to any one of claims 1 to 12, wherein the identification token includes at least one high-frequency identification chip or a magnetically readable portion. A security control system configured to allow visitors to enter the premises,
A decision circuit configured to determine an identification tag;
A transmitter configured to transmit the identification tag to a visitor;
A first scanner configured to scan the identification tag of the visitor;
A first authentication circuit configured to authenticate the identification tag;
A generator configured to generate an approval signal if the authentication result of the identification tag is positive;
A distributor configured to distribute the identification token;
A second scanner configured to scan the identification token;
A second authentication circuit configured to authenticate the identification token and allow the visitor to enter the premises;
Including security control system.   The security control system of claim 14, wherein the security control system is configured to receive personal data of the visitor.   16. The security control system according to claim 14 or 15, wherein the first authentication circuit is configured to authenticate the personal data.   The security control system according to any one of claims 14 to 16, further comprising a collector adapted to collect the identification token.   The security control system according to any one of claims 14 to 17, wherein the identification tag includes an optically readable image.   The security control system according to any one of claims 14 to 18, wherein the optically readable image includes at least one of a bar code and a quick response code.   The security control system according to any one of claims 14 to 19, wherein the identification token includes at least one of a high-frequency identification chip or a magnetically readable portion.

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