RU2643898C1 - Access management and control system by using mobile telecommunication device - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: system contains a mobile telecommunication device, a user ID, a wireless interface, an electronic reader, an NFC interface, an access point identifier, a wireless interface, a telecommunications infrastructure, a network interface, a Wiegand interface, a switch, a controller, an access point, an executive device. To pass through the access point through the identifier, the user's identification feature is transmitted by the reader to the switch, which relays the data to the corresponding port of the controller. When using a mobile telecommunication device, the user reads the access point code from the access point mark. The mobile device transmits the identification and access point code to the switch, which calculates the port of the controller to which the mark corresponds on the access point, and transmits the user's identification characteristic to it. The controller, in case of successful identification and user authentication, sends an opening signal to the executive device at the access point.

EFFECT: possibility of mobile access based on identifiers of access points to controllers of access control systems and access control without an open TCP protocol or a missing network interface.

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Description

The invention relates to the field of access control and management systems (ACS) using mobile telecommunication devices and access point identifiers.

The classic scheme of access control and management system (ACS) is known, consisting of a user identifier, reader, controller and executive device (GOST R 51241-2008, "Means and systems of access control and management. Classification. General technical requirements. Test methods" (approved by order of the Federal Agency for Technical Regulation and Metrology of December 17, 2008 N 430-st) GARANT System: http://base.garant.ru/196205/#ixzz4OjaUMNQL), which works as follows. The user, approaching the access point, applies a personal identifier to the ACS reader. The identifier, as a rule, is a device without its own power source and can be made in the form of a card, key fob, bracelet, etc. After receiving the user identification from the identifier, the reader transfers it to the controller via a wired connection. Data exchange between the reader and the controller is performed according to Wiegand, RS-485 or RS-232 standards. The controller performs a user identification and authentication procedure. If the user has the right of access, the controller sends an opening signal to the actuator, made in the form of an electromechanical or electromagnetic lock, the drive mechanism of the turnstile or barrier. Using a mobile telecommunications device as a user identifier, hereinafter referred to as a mobile access function, in such access control systems is implemented by using specialized NFC readers. The user's identity is stored in the memory of the mobile device. The use case for a mobile telecommunications device is the same as using traditional identifiers. When approaching an access point, the user applies a mobile telecommunications device to the NFC reader. Data exchange between the NFC reader and the mobile telecommunication device is carried out using NFC technology.

The disadvantage of this approach is that to install an ACS with a mobile access function, it is necessary to provide a wired connection for transmitting data and voltage to the NFC reader, install it in close proximity to the access point, so installation work can be associated with significant changes in the interior decoration premises. It is also possible technical, constructive or ergonomic restriction on the installation of the reader with a wired connection at the access point, for example in a room with glass walls.

The closest analogue of the claimed solution in terms of the essential features is an ACS with a mobile access function, where the access point identifier is used instead of the NFC reader. A number of ACSs are known based on this principle of operation (patent US 9076273 B2, February 24, 2012; patent application US 20140002236 A1, December 2, 2010; patent CA 2834964, May 2, 2011). The access point identifier can be in the form of an NFC tag, RFID tag, QR code, or barcode. The functioning of this ACS is as follows. The access point identifier is set in the form of a label containing the access point code. The user's identity is stored in the memory of the mobile telecommunications device. When approaching the access point, the user reads the contents of the identifier of the access point using a mobile telecommunications device, which transmits the user's identification tag and access point code over the wireless network to the server or ACS controller. The user authentication and authentication is performed on the server or ACS controller. In case of successful user authentication, the server or controller sends an opening signal to the actuator of the access point where the user-readable label was set.

The disadvantage of this solution is that it can only be implemented for network controllers and ACS servers with an open TCP / IP protocol or an ACS manufacturer within its own infrastructure. Thus, in the absence of a single standard for the interaction of ACS network elements, the use of the mobile access function using access point identifiers is significantly limited and depends on the technical capabilities and compatibility of the ACS equipment and software.

The technical result of the present invention 'is the possibility of introducing a mobile access function based on access point identifiers into ACS controllers without an open TCP / IP protocol or an absent network interface. The user identification tag from the mobile telecommunications device is transmitted via a standardized wired interface to the appropriate controller port, designed to receive data from the reader. Standard wired controller interfaces include Wiegand, RS-485, and RS-232.

The technical result is achieved by using a switch that connects to the controller ports. The switch has a network interface and can receive an identification tag from a mobile telecommunications device and redirect it to the appropriate controller port, depending on the code received from the access point identifier. In addition to ports for connecting to the controller, the switch has ports for connecting readers. The identifier transmitted by the reader is transmitted by the switch to the corresponding port of the controller. Thus, it is possible to share traditional readers and access point identifiers on the controller without a network interface or with a closed network protocol. This solution allows not to use readers on those access points where this is not necessary, being limited to simple identifiers of access points during installation.

As a result, the mobile access function is integrated with minimal interference in the internal structure of the ACS, as for the controller, user identities come only through the reader ports. This approach eliminates the need for a network interface for the controller and TCP / IP protocols for interacting with mobile telecommunication devices. As a result, ACS is significantly expanding, for which the implementation of the mobile access function is possible.

The claimed solution is illustrated in FIG. 1, where the access control system includes a mobile telecommunications device (1), a user ID (2), a wireless interface (3), an electronic reader (4), an NFC interface (5), an access point identifier (6), a wireless interface ( 7), telecommunications infrastructure (8), network interface (9), Wiegand interface (10), switch (11), controller (12), access point (13), executive device (14).

In FIG. 1 shows a structural diagram of the proposed ACS. An ACS user, within the framework of the invention, uses a mobile telecommunications device (1) or identifier (2) to pass through an access point (13).

When using identifier (2), the user applies it to the reader (4). Next, the identification of the user attribute is read via the wireless interface (3). The reader (4) converts the received data and transfers it to the switch (11) via the Wiegand interface (10). The switch (11) transfers the data to the controller (12) via the Wiegand interface (10). The controller (12) performs identification and authentication of the user. In case of successful authentication, the controller (12) sends an opening signal to the actuator (14) at the access point (13).

When using a mobile telecommunications device (1), the user reads the identifier of the access point (6). When using NFC tags, the mobile telecommunications device (1) reads data via the NFC interface (5). In the case of using a QR code or barcode, the tag is read using the built-in camera of a mobile telecommunication device. The user's identity is stored in the memory of the mobile telecommunications device (1) and may contain the user's personal number, IMEI or MAC address of the device. A mobile telecommunications device (1) transmits a message containing a user identification and an access point code via a wireless interface (7) through a telecommunications infrastructure (8) to a switch (11) that is connected to the telecommunications infrastructure (8) via a network interface (9). The wireless interface (7) can be implemented in the form of cellular technology, Wi-Fi, or Bluetooth connection. Telecommunication infrastructure (8) transmits a message over a communication network, in which, if necessary, the transformation of data transmission technologies is performed. The network interface (9) of the switch (11) can be implemented in the form of cellular technology, Wi-Fi, Bluetooth, LP WAN, IEEE802.15.4 or Ethernet connections. Data is transmitted from the mobile device (1) to the switch (11) via a secure channel. Upon receipt of the message from the mobile telecommunications device (1), the switch (11) selects the port of the controller (12), to which the user identification will be transmitted, in accordance with the identifier code of the access point (6) in the message. The user identification is transmitted to the corresponding controller port (12) via the Wiegand interface (10). Next, the controller (12) performs identification and authentication of the user. In case of successful authentication, the controller (12) sends an opening signal to the actuator (14) of the access point (13).

Thus, when using the switch in the claimed solution, the ACS user uses a mobile telecommunication device or identifier to pass through the access point. As a result, a number of access control and management systems are expanding for which the mobile access function is available and the volume of material costs for implementing this function is reduced.

Claims (18)

1. An access control and management system comprising: user identifier without its own power source, storing the identification of the user; a reader located on the access point, receiving a user identification from the identifier and transmitting it to the controller via a wired connection; access point identifier, made in the form of a tag without its own power source, located in close proximity to the access point and storing its code; a mobile telecommunications device that stores in memory the identification of the user and transmits to the controller when reading the identifier of the access point a message containing the identification of the user and the code of the access point; a controller connected to a database with user access rights, performing reception and processing of an identification feature, user identification and authentication, controlling an actuator; an actuator that brings the blocking device at the access point into open or closed state; characterized in that the switch is connected to the controller through the interface for the readers, and the reader is connected to the switch, while the switch relays the data from the reader to the corresponding port on the controller, in addition, the mobile telecommunications device, when reading the identifier of the access point, sends a message to the switch where it is processed and is transmitted to the corresponding controller port in the form of a user identification tag. 2. The access control and management system according to claim 1, characterized in that the user can use a mobile telecommunication device or identifier to pass through the access point. 3. The access control and management system according to claim 1, characterized in that upon receipt of the message from the mobile telecommunications device, the switch determines the port of the controller for transmitting the identity of the user by the access point code. 4. The access control and management system according to claim 1, characterized in that the access point identifier can be made in the form of an NFC tag, RFID tag, QR code, barcode. 5. The access control and management system according to claim 1, characterized in that data is exchanged between the mobile telecommunications device and the switch via a secure connection. 6. The access control and management system according to claim 5, characterized in that the mobile telecommunications device is connected to a secure connection using cellular technology, Wi-Fi or Bluetooth. 7. The access control and management system according to claim 5, characterized in that the switch is connected to a secure connection using cellular technology, Wi-Fi, Bluetooth, LPWAN, IEEE802.15.4 or Ethernet. 8. The access control and management system according to claim 1, characterized in that the reader transmits the user identification sign obtained from the identifier to the switch via the Wiegand, RS-485 or RS-232 interface. 9. The access control and management system according to claim 1, characterized in that the switch connects to the controller on the ports for readers via the Wiegand, RS-485, RS-232 interface. 10. The access control and management system according to claim 1, characterized in that the user's identification tag is stored in the memory of the mobile telecommunication device in encrypted form. 11. The access control and management system according to claim 1, characterized in that on the access point, in addition to sharing the reader and the access point identifier, it is possible to use the reader separately without the access point identifier or access point identifier without a reader with corresponding restrictions for the user on the identification media used sign.

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