EP3748590A1 - Appareil d'authentification pouvant être monté au mur - Google Patents

Appareil d'authentification pouvant être monté au mur Download PDF

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Publication number
EP3748590A1
EP3748590A1 EP20177544.2A EP20177544A EP3748590A1 EP 3748590 A1 EP3748590 A1 EP 3748590A1 EP 20177544 A EP20177544 A EP 20177544A EP 3748590 A1 EP3748590 A1 EP 3748590A1
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EP
European Patent Office
Prior art keywords
authentication device
user
authentication
door
security
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP20177544.2A
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German (de)
English (en)
Inventor
Martin Reichherzer
Ralf Leute
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ABUS Security Center GmbH and Co KG
Original Assignee
ABUS Security Center GmbH and Co KG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by ABUS Security Center GmbH and Co KG filed Critical ABUS Security Center GmbH and Co KG
Publication of EP3748590A1 publication Critical patent/EP3748590A1/fr
Pending legal-status Critical Current

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    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07CTIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
    • G07C9/00Individual registration on entry or exit
    • G07C9/20Individual registration on entry or exit involving the use of a pass
    • G07C9/22Individual registration on entry or exit involving the use of a pass in combination with an identity check of the pass holder
    • G07C9/23Individual registration on entry or exit involving the use of a pass in combination with an identity check of the pass holder by means of a password
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07CTIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
    • G07C9/00Individual registration on entry or exit
    • G07C9/20Individual registration on entry or exit involving the use of a pass
    • G07C9/22Individual registration on entry or exit involving the use of a pass in combination with an identity check of the pass holder
    • G07C9/25Individual registration on entry or exit involving the use of a pass in combination with an identity check of the pass holder using biometric data, e.g. fingerprints, iris scans or voice recognition
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07CTIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
    • G07C2209/00Indexing scheme relating to groups G07C9/00 - G07C9/38
    • G07C2209/60Indexing scheme relating to groups G07C9/00174 - G07C9/00944
    • G07C2209/63Comprising locating means for detecting the position of the data carrier, i.e. within the vehicle or within a certain distance from the vehicle

Definitions

  • the invention relates to a wall-mountable authentication device for authenticating a user of a building locking system and a method for authenticating a user of a building locking system.
  • Wall-mountable door communication systems are known in principle, in particular those that enable voice communication between a user of the door communication system in the exterior of a building and a resident in the interior of the building and include a camera that allows the resident to identify the user based on a transmitted image. If the resident is absent, he has no way of tracking or influencing activities in the door area with such a device.
  • Authorized persons usually open doors from outside using a key, a chip card or a PIN code. In these cases, the door can also be opened by a person who is not authorized to access the door if they have gained access to a key, chip card or PIN code.
  • the present invention is based on the object of providing an authentication device and an authentication method which offers increased security against unauthorized access to a building and is also characterized by increased ease of use.
  • the object is achieved by a wall-mountable authentication device with the features of claim 1 and a method for authenticating a user of a building locking system with the features of claim 9.
  • a wall-mountable authentication device for authenticating a user of a building locking system comprises a control unit, an image acquisition device connected to the control unit, a sound recording / output device connected to the control unit, a device connected to the control unit for wireless transmission / reception of data, and one to the control unit connected touch-sensitive screen and an interface module connected to the control unit for connecting the authentication device to at least one door actuator.
  • a first security feature of the user is recorded in a first authentication step and the recorded security feature is compared with at least one first predetermined security feature and, if the recorded first security feature corresponds to the first specified security feature, a second security feature of the user is recorded in a second authentication step and the recorded second security feature is compared with at least one second specified security feature and, if the detected second security feature matches the second specified security feature, the control unit unlocks and / or a door assigned to the door actuator is initiated.
  • the authentication device according to the invention can be wall-mounted, that is, it is provided to be attached to a wall, in particular to a building wall and preferably next to a door.
  • the authentication device can also be attached to an entrance gate to a site. In both cases, the site and / or building can be used privately as well as for business purposes.
  • the authentication device can be used for user authentication in one-party or multi-party buildings.
  • the authentication device can control several door actuators, which can optionally be assigned to different doors. Different users with possibly different authorizations can be registered on the authentication device for different door actuators to be controlled.
  • actions are carried out by the authentication device that depend on the authorizations and configurations that are stored for the respective authenticated user. This can include, for example, unlocking a door lock and, if necessary, automatic opening of the assigned door for a user with access authorization or displaying a bell button for a user who is not authorized to access.
  • users are all persons who interact with the authentication device. This can include residents of a private household, staff in private households, employees of a company, well-known Visitors with or without access authorization and unknown visitors who usually do not have access authorization, such as mail carriers or parcel deliverers as well as service providers and craftsmen.
  • the users can also be divided into different categories: A master user can be authorized to make configurations on the authentication device, while a standard user, for example, only has access authorization or can only access a limited range of functions of the authentication device that can be configured by the master user.
  • An unknown user can, for example, only be authorized to operate a signal unit, leave a message and, depending on the configuration, switch on lighting, start certain networked devices such as watering the garden, or enter a security code.
  • a master user can also create user groups for which specific functional scopes and processes can be configured, for example user groups such as 'children of a resident' or 'employees 1st floor'.
  • user groups such as 'children of a resident' or 'employees 1st floor'.
  • residents all persons who are expected and regularly stay in a building, site or household that are secured with a building locking system according to the invention are referred to as residents.
  • This can accordingly include employees of a company in premises secured according to the invention, as well as residents of a private household.
  • the control of the authentication process and the functions of the authentication device is carried out by the control unit, which is connected to the components of the authentication device.
  • These components include an image capture device, a sound recording / output device which includes at least one microphone and at least one loudspeaker, a device for wireless transmission / reception of data, also referred to below as a transmission / reception device, a touch-sensitive screen which is used to output Information and messages as well as for entering commands and for interaction with the authentication device is configured, and an interface module for connecting the authentication device to a door actuator.
  • the interface module is designed in such a way that the connection to the door actuator can be established by radio, in particular, for example, by means of sub-1 GHz frequencies, or also by cable.
  • the sound recording / output device is intended to enable door communication between a user of the authentication device and a resident of the building, to provide sound recording and playback for voice and video messages or calls, and to enable biometric voice recognition.
  • the microphone can be configured to pick up conspicuous noises in the door area and to generate appropriate warnings for the occupant of the building by means of noise detection by the control unit of the authentication device.
  • door actuators are understood to mean both door locks and door drives for automatically opening or closing a door.
  • a door actuator can be formed by a device integrated in a door lock, such as a motor lock, an electronic door cylinder, a motorized door lock drive or an electric door buzzer, an electromagnetic door lock or an electric door opening device.
  • the door actuator can comprise a device for automatically locking and unlocking the door as well as a device for automatically opening and closing the door, so that as a result of a successful authentication process an automatic, ie not requiring manual intervention, and thus particularly convenient unlocking and opening or closing. Closing and locking the door can be done.
  • the authentication method according to the invention is based on the detection of security features of a user of the authentication device.
  • Suitable security features include personal features, which can in particular be biometric features, as well as electronic security keys and / or security codes.
  • biometric feature includes, inter alia, fingerprints, hand geometry and palm vein patterns, iris or retinal characteristics, characteristic eye movements, characteristic features of the voice, and two- and / or three-dimensional face geometry.
  • Electronic security keys in this context include QR codes, Bluetooth keys, WLAN keys, and NFC or RFID tags, while PIN codes or passwords and phrases are conceivable as security codes.
  • Biometric features, in particular palm vein patterns or characteristic eye movements generally have a significantly increased security against forgery and misuse compared to conventional keys, chip cards or PIN codes.
  • a particularly high level of security is achieved in that different security features of the user are queried in two authentication steps.
  • the security feature queried in the first authentication step is compared with predefined, stored security features of the known users. If there is a match between the detected and a first predetermined security feature, the query of a second security feature of the user is triggered, which is different from the first security feature. Unlocking and / or opening of the door is only initiated if the second security feature also matches a second predetermined security feature.
  • Such double authentication significantly reduces the risk of unauthorized opening of the door.
  • the authentication device has a sensor system connected to the control unit for detecting the approach of a person to the authentication device.
  • An increase in the service life and a reduction in the energy consumption of the authentication device can be achieved in that the authentication device is only activated when an approaching person is detected within a detection distance d rec from the authentication device.
  • the sensor system for detecting the approach of a person can include, for example, a pyroelectric (PIR) sensor, an ultrasonic sensor or a camera as a proximity sensor.
  • the authentication device preferably has a database in which the specified security features of the registered users are stored, in particular biometric features, electronic security keys and / or security codes.
  • the interface module is designed to connect the control unit to a local network, an external server, a doorbell, a sensor system for detecting an open state of a door assigned to the door actuator, a smart home system and / or an alarm system.
  • the connection can be wired, for example via Ethernet, or wirelessly, for example by means of WLAN and / or by means of radio, in particular by means of sub-1 GHz frequencies.
  • the external server can in this context by one or more central computer units or alternatively be formed by a cloud.
  • a cloud can be a cloud provided by the manufacturer of the authentication device, which guarantees the use and configuration of the full functionality of the authentication device, or a cloud provided by a third party provider.
  • the external server can comprise a database in which predetermined security features are stored.
  • the external server can provide an Internet connection for the authentication device in order to enable an exchange of messages and information between the authentication device and mobile terminals, mobile applications or databases as well as the downloading of information from the Internet.
  • the authentication device can also be connected to an in-house system such as an alarm, surveillance or security system, a smart home system and / or an ABUS security platform via the interface module.
  • the sensor system for detecting an open state of a door assigned to the door actuator advantageously detects both whether and when the door is opened or closed and whether the door lock is in a locked or unlocked state.
  • the image acquisition device of the authentication device preferably comprises at least one camera for two-dimensional image acquisition, for example an RGB camera.
  • the image acquisition device of the authentication device particularly preferably comprises a camera for three-dimensional image acquisition, for example a 3D TOF camera for image acquisition by means of the transit time method.
  • a 3D TOF camera provides increased security against unauthorized access through the possibility of three-dimensional face recognition and a vein scan in the authentication process and offers an expansion of the functionality of the authentication device through the possibility of capturing gestures.
  • the three-dimensional one Image acquisition using the transit time method is insensitive to unfavorable lighting conditions.
  • the image acquisition device can have an infrared camera in order, for example, to enable people to be recognized, gaze acquisition, or pupil movement to be tracked by means of this camera or an aforementioned camera.
  • the device for wireless transmission / reception of data has a Bluetooth module, an RFID module, an NFC module and / or a WLAN module, which can be installed individually or in any combination in the authentication device, can serve to query corresponding security features and / or can provide communication between the authentication device and an external server.
  • Another object of the invention is a building locking system with an authentication device of the type described above and a door actuator connected to the authentication device, the connection being wireless, for example by radio, or also wired.
  • the building locking system preferably has an external server which is connected to the authentication device.
  • the external server can also be a cloud.
  • the method for authenticating a user of a building locking system by means of an authentication device connected to a door actuator is advantageously designed such that the first and / or second detected security feature is a biometric feature.
  • the increased security against forgery of biometric features, in particular of vein scans, for example, contributes to increased security of the authentication process.
  • a biometric feature can be recorded and if this captured biometric feature matches a specified security feature, the automated query of a further personal security feature is triggered in a second authentication step, for example the exchange of a digital key with a mobile device of the user via Bluetooth or WLAN, the acquisition of a further biometric feature or another security feature.
  • the control unit causes the door assigned to the door actuator to be locked if the authentication device has detected an opening of the door within a predetermined period of time before the first authentication step and the security feature detected in the first authentication step already matches a correspondingly specified security feature.
  • This serves to increase the ease of use, since in this way a reliable locking of the door can be ensured without manual intervention after leaving the building.
  • the authentication by a single security feature is sufficient when locking, since there are usually lower security requirements.
  • the predetermined period of time before the first authentication step, in which opening of the door is detected can be configured by a master user or preset by the manufacturer, for example in such a way that the door can only be locked within 2 minutes, preferably 1 minute, with positive authentication of a user. after opening the door.
  • the authentication method is advantageously designed in such a way that if a security feature detected in one of the authentication steps does not match a correspondingly specified security feature, at least one input field for user input is displayed on the touch-sensitive screen, which enables the user to generate a ringing signal, a Video, voice or text message for another user of the authentication device to leave on the authentication device, to make a video or voice call via the authentication device to a mobile device of another user of the authentication device, to deliver a text message via the authentication device to a mobile device of another user of the authentication device, a video, voice or text message, which another user has stored on the authentication device, and to initiate unlocking and / or opening of the door assigned to the door actuator by entering a security code.
  • information can also be provided on the touch-sensitive screen for the user about whether there is a malfunction in the authentication process and what type of malfunction is. For example, it can be pointed out that there is no data connection, or, in the event of a failed biometric authentication, a request and / or instructions can be displayed for the user to position himself correctly in the detection area of the authentication device.
  • a bell signal generated by the user on the authentication device can be reproduced, for example, on a signal unit inside the building or on a mobile terminal of the occupant of the building.
  • a resident can also be informed about activities on the authentication device during his absence or can communicate with the user via his mobile device and the authentication device.
  • Video, voice and text messages left on the authentication device for other users can, for example, be directed to a resident of the building or a child of the resident, as can the video and voice calls and text messages transmitted to mobile terminals.
  • Messages that a user leaves on the authentication device for retrieval by another user can in particular be stored by a resident and contain, for example, information about when the resident can be reached again or who should be contacted as a replacement.
  • a visitor can trigger a bell signal on the authentication device which, in the absence of the resident of the building, is forwarded to the resident to his mobile terminal.
  • the resident then has the option of accepting the bell signal in the form of a video or voice call and communicating with the visitor via the authentication device.
  • the resident could then open the door for the visitor even during his absence or provide the visitor with a security code to open the door once.
  • the image acquisition device can be designed to take a photo including a time stamp of unregistered and / or unauthorized users who are detected on the authentication device so that a resident of the building can be informed about visits. If necessary, a corresponding input field can be displayed which enables the user of the authentication device to consent to the photo taking or to trigger it in a targeted manner via user input.
  • the input fields displayed can also offer a fallback option for a user with access authorization to open the door if, as an exception, the regular authentication steps cannot be successfully completed. This can happen, for example, if an electronic security key is requested by the authentication device in a step of the authentication process, but the battery of the correspondingly required mobile device of the user is empty.
  • an authorized user can enter a security code, for example a PIN code or a password, via the touch-sensitive screen in order to still be able to open the door.
  • a corresponding keypad for entering the code can be displayed on the touch-sensitive screen in such a way that the keys are displayed in a random order each time they are called.
  • the authentication device preferably goes into a sleep mode after use. It only changes to an active mode and starts the first authentication step when the approach of a user to the authentication device is detected.
  • the touch-sensitive screen can be deactivated in idle mode and only activated when a user is detected. It is conceivable that the screen is switched on at a distance from the user that is less than 10 meters and preferably less than 5 meters. This extends the life of the screen and reduces the power consumption of the authentication device.
  • a configurable welcome screen can be displayed at a distance of more than one meter, which can contain information such as address data or resident data, warning notices, for example on video surveillance of the door area, bell areas for at least one party in the building and other information. If the distance between the user and the authentication device is reduced, for example less than 1 meter, the authentication method can be started with the detection of a security feature.
  • all of the security features recorded in the authentication process can be appropriately predetermined Security features match, other configurable functions, in particular smart home devices and security systems, are activated or deactivated and / or information about their status as well as recorded events and warnings are displayed on the touch-sensitive screen and / or information about activities on the authentication device and devices connected to it or sensors are displayed on the touch-sensitive screen.
  • security systems for example an alarm system
  • Other devices within the house, building or site can be controlled by the authentication device, for example a garage door, an entrance gate, a garden irrigation system and other devices that are networked as part of a smart home.
  • a master user of the authentication device can configure scenarios that include several functions of networked devices at the same time. These scenarios can be activated or deactivated by the authentication device, depending on which user is authenticated on the authentication device. For example, a 'house is empty' scenario can be started when the authentication device has detected that all residents have left the building, which can include activating an alarm system, switching off all lighting in the building and turning down heating.
  • a 'child comes home' scenario when a child is authenticated on the authentication device can cause the parents to receive a notification of the child's return on a mobile device and / or to play a message from the parents for the child on the touch-sensitive screen of the authentication device and / or the lighting in the house is switched on.
  • an input field can be displayed on the touch-sensitive screen which enables the neighbor to switch on a garden irrigation, for example, without entering the building.
  • Information about the status of the connected smart home devices as well as recorded events and warnings can also be displayed on the touch-sensitive screen and / or information about activities on the authentication device and associated devices or sensors can be displayed on the touch-sensitive screen while the resident is absent, if the resident himself or other appropriately authorized users are authenticated by the authentication device.
  • This can include a message about known or unknown visitors in their absence, photos of the visitors or video messages left by the visitors, a message that mail has been thrown into the mailbox if it is connected to the authentication device via a corresponding sensor system, as well as information include noticeable noises in the door area or other warning notices.
  • the authentication device can open an emergency opening with the authentication device in the event of an alarm connected door possible. This can be done either by means of a general emergency opening function activated in the event of an alarm, for example by means of a corresponding input field that is displayed on the touch-sensitive screen, or it can only be accessible to emergency services who can, for example, request remote opening through a stored emergency contact.
  • Fig. 1 shows a building 10 with a building wall 12 into which a door 18 is let.
  • the door 18 is provided with two door actuators, which are designed here in the form of an electric door opening device 22 and a motorized door lock 24.
  • the door actuators 22, 24 are part of a building locking system 14, which also includes an external server 26, which is configured here as a cloud, and an authentication device 16.
  • the authentication device 16 is mounted next to the door 18 on the building wall 12 and is provided to authenticate a user of the building locking system 14.
  • the authentication device 16 comprises a control unit 30, which is connected to further components of the authentication device 16, namely with an image acquisition device 32, a sound recording / output device 34, a device for wireless transmission / reception 36 of data, a touch-sensitive screen 38 and an interface module 40 for the wired or wireless connection of the authentication device 16 to the door actuators 22, 24.
  • Fig. 3 shows a first specific embodiment of the authentication device 16.
  • the image capture device 32 here comprises a 2D camera 42, which is provided to take photos or videos of a user. In principle, these recordings can be used as a basis for a two-dimensional face recognition or a recording of characteristic eye movements and to a resident of building 10 for informational purposes.
  • the image acquisition device 32 shown has a 3D TOF camera 44, which is provided to record three-dimensional recordings by means of a transit time method. These can advantageously be used in an authentication method for three-dimensional face recognition and / or a scan of the palm vein pattern of a user.
  • the sound recording / output device 34 comprises a microphone 46 and a loudspeaker 48, which are provided to leave messages for other users, in particular for a resident of the building 10, on the authentication device and / or to play back sound recordings and also to use them for biometric voice recognition will.
  • the transmitting / receiving device 36 includes a Bluetooth module 50 and a WLAN module 52, which are provided in an authentication method for exchanging a digital key pair with a mobile terminal of the user.
  • the key exchange can optionally take place via Bluetooth or WLAN.
  • the authentication device 16 also has a sensor 54 for detecting an approach of a user to the authentication device 16, which sensor is designed here as a PIR sensor. The detection of a user can lead to the authentication device 16 being switched from an idle mode with the touch-sensitive screen 38 switched off into an active mode.
  • the control unit 30 is connected to a local network via the interface module 40, for example by means of Ethernet or by means of WLAN.
  • An Internet connection to an external server 26 can be established via the local network, which enables communication between a user of the authentication device 16 and a resident of the building 10, in particular also in its absence, for example via a mobile application on a mobile device of the resident in the form of video, voice or text messages or in the form of Internet telephony.
  • the authentication device 16 is also connected via the interface module 40 to a sensor 56, which is connected to the open state of the door 18 and here to the control unit 30.
  • the sensor 56 can in principle be connected to the authentication device 16 by wire or wirelessly.
  • the interface module 40 here also has a sub-1 GHz module 64 which is provided to connect the door actuator 24 in the form of an electronic lock cylinder and / or required sensors to the control unit 30 of the authentication device 16, for example.
  • the authentication device 16 also has a database 58 connected to the control unit 30, in which predetermined security features are stored, in particular biometric features, electronic security keys and / or security codes.
  • the security features stored in the database 58 can be compared by the control unit 30 with the security features recorded in an authentication process in order to identify a user and, if necessary, to start functions on the authentication device 16.
  • a user In the 'arrival' situation, a user first approaches the building or site 10 from the outside and thus the authentication device 16 of the building locking system 14.
  • the PIR sensor 54 detects the approach 100 and brings the authentication device 16 from a sleep mode to an active mode when the The user approaches the authentication device 16 up to a distance d which is not greater than a detection distance d rec .
  • the touch-sensitive screen 38 While the touch-sensitive screen 38 is deactivated in the idle mode, it is switched on in the active mode.
  • a welcome screen is displayed 102 on the touch-sensitive screen 38. This can contain, for example, a warning that the user is in a video-monitored area, as well as the house number of the building 10 and the names of the residents.
  • the authentication device 16 starts an authentication process 104 ( Figure 4A ).
  • a first security feature of the user is determined.
  • two-dimensional face recognition of the user is to be carried out for this purpose by means of the 2D camera 42.
  • a corresponding request and instructions for correctly positioning the face in front of the 2D camera 42 are displayed on the touch-sensitive screen 38 and a corresponding recording of the face is created.
  • Characteristic features of the recording are compared by the control unit 30 with predetermined characteristic features of the users registered on the authentication device 16, which are stored in the database 58.
  • two-dimensional face capture by means of the 2D camera 42 can be dispensed with and instead a three-dimensional face recognition by means of the 3D TOF camera 44 can be used in the run-time method.
  • a second authentication step 108 is carried out.
  • the Bluetooth module 50 of the authentication device 16 automatically requests a security key from the mobile terminal of the user by means of Bluetooth.
  • the security key received from the mobile terminal is compared by the control unit 30 with the security keys stored in the database 58.
  • control unit 30 checks which authorizations the identified user has. If the identified user is authorized to access, the control unit 30 initiates an automated unlocking and opening 110 of the door 18 by means of the connected door actuators 22, 24.
  • a corresponding extended range of functions is displayed on the touch-sensitive screen 38 of the authentication device 16, depending on the authenticated user. This applies to the neighbor, for example, who can activate the garden irrigation system connected to the authentication device 16 on the authentication device 16 in the absence of the residents.
  • one of the security features detected in one of the authentication steps 106 or 108 does not match a stored security feature of a registered user, one or more input fields are displayed to a user on the touch-sensitive screen 38, by means of which a user input can be made in the authentication device 16 and information can be provided for the user ( Figure 4B ).
  • An input field 116 enables the user to generate a bell signal that is reproduced on a signal device in the interior of the building 10 in order to inform a resident of the presence of a visitor on the authentication device 16.
  • a photo or video of the visitor can be displayed on the signal device indoors. The resident can then open the door 18 for the visitor manually or automatically.
  • the bell signal can be reproduced on a mobile terminal of the resident by means of the external server 26, and a photo or video of the visitor can also be transmitted.
  • the resident can then accept a video or voice call with the authentication device 16 in response to the ringing signal.
  • an input field 118 enables the visitor to make a video or voice call by means of the external server 26 with a mobile terminal of the resident.
  • Another input field 120 provides a function for sending a text message to a mobile terminal of the resident by means of the external server 26.
  • An input field 122 enables a video, voice or text message to be left on the authentication device 16.
  • An input field 124 enables a video, voice or text message that the resident has left on the authentication device 16 to be called up.
  • An input field 126 provides the possibility of opening the door 18 by entering a security code.
  • an information field 128 can be displayed on the touch-sensitive screen 38 of the authentication device 16, which informs a user about opening times, for example if the authentication device 16 is not used in a private household but in a business environment. Accordingly, the touch-sensitive screen 38 can be used as advertising space or provide infotainment for the visitor.
  • FIG. 4C One embodiment of the 'leave' situation is in Figure 4C shown.
  • the sequence is started by the opening 130 of the door 18 detected by the sensor system 56.
  • the steps 100-106 of the authentication process are started as in the 'Arriving' situation ( Figure 4A ) described. If the authentication of a known user takes place within a predetermined time window t ⁇ tmax of, for example, 1 minute after the detected opening 130 of the door 18, the authentication device 16 recognizes that the situation is 'leaving', that is, a person is leaving Building 10. If in this case the authentication device 16 recognizes a user with access authorization in the first authentication step 106, no further authentication step 108 is carried out, but an automatic closing and / or locking 132 of the door 18 is initiated.
  • This function of the authentication device 16 can also be configured by a master user in such a way that, for example, the user groups are configured for which the door 132 is to be automatically locked, or that the automated locking 132 of the door 18 only takes place if the authentication device 16 is using the sensor 56 has detected that all residents have left the building 10.
  • configurable user-specific information can be displayed on the touch-sensitive screen 38 to an authenticated user when “leaving”, and functions or scenarios can be started on devices connected to the authentication device 16.
  • an alarm system is activated and the lighting is switched off.
  • the resident is shown instructions - based on their calendar, for example, a reminder to take a sports bag with them or, based on a weather report provided on the Internet, an instruction to pack an umbrella.
  • configurable input fields can be displayed which enable connected devices to be controlled manually as required, for example opening the garage door and forwarding bell signals that are triggered on authentication device 16 to a mobile terminal.
  • FIG. 11 shows a second specific embodiment of the authentication device 16, which ultimately only differs from the first specific embodiment from FIG Fig. 3 differs in that the transmitting / receiving device 36 has an RFID module 62 in addition to the Bluetooth module 44 and the WLAN module 46.
  • this authentication device 16 further refinements of the authentication method are possible, since it offers additional options for how a user can be authenticated on the authentication device 16.
  • a user-related RFID tag can be read out by the authentication device 16 as a recorded security feature.
  • transmission standards such as NFC, provided by an NFC module, can be used, any combination being possible with the above-mentioned further modules for wireless transmission / reception of data.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Lock And Its Accessories (AREA)
EP20177544.2A 2019-06-03 2020-05-29 Appareil d'authentification pouvant être monté au mur Pending EP3748590A1 (fr)

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US20140210590A1 (en) * 2013-01-30 2014-07-31 International Business Machines Corporation Entry technology for building automation
US20160308859A1 (en) * 2015-04-14 2016-10-20 Blub0X Technology Holdings, Inc. Multi-factor and multi-mode biometric physical access control device
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