A system for controlling access to a secure room containing a plurality of safety deposit boxes, comprises a motion detector, a biometric sensor, and a plurality of contact sensors, wherein each of the safety deposit boxes is associated with at least two contact sensors. The system includes a processor that is configured to unlock the gate when a plurality of access conditions are satisfied, which may include: collecting via the biometric sensor a biometric sensor a biometric credential that matches a reference biometric credential in a user database; and determining the secure room is unoccupied based on at least a predetermined period of no motion detected by the at least one motion sensor. The processor may also be configured to generate a box-accessed event identifying one of the safety deposit boxes when all of the contact sensors associated with that safety deposit box are simultaneously opened.

A smart-lock system and a method of operating the system is disclosed. The system comprises a smart-lock on a door of a room. The door comprises a first and a second side. The first side of the door lies on the interior side of the room and the second side of the door lies on the exterior side of the room. At least one sensor is disposed on the first side of the door to detect the presence of any user on the interior side of the room and at least one sensor is disposed on the second side of the door to detect the presence of any user at the exterior side of the room. The smart-lock is configured to lock the room when the room is occupied.

An actuation handle (4) for attaching to an outside of a door (2) has an access control system designed to control a motorized lock, that contains an evaluation unit and a reader (8) for reading and identifying a transponder located in a first detection range (12) defined by the reader (8). The reader (8) is integrated in the actuation handle (4). There is also a sensor (10) for detecting an object located in a second detection range (14) defined by the sensor (10), which is coupled to the evaluation unit and integrated in the actuation handle (4). The sensor (10) is located on a first section (16) of the actuation handle (4), and the second detection range (14) extends outward from the first section (16). The evaluation unit is configured to activate the sensor (10) to detect an object in the second detection range (14) after identifying a transponder.

A method and apparatus of access control as described. A touch of a touch zone of an access controller including a body area network (BAN) transceiver is detected. In response to detecting the touch, a request from an access controller comprising a BAN transceiver via a body area network is transmitted to a user of a portable device including a BAN transceiver and a biometric sensor. The request is received by the portable device via the BAN network. In response to receiving the request, the portable device transmits a digital key comprising biometric data detected by the biometric sensor and a digital identifier from the portable device to the access controller via the BAN network. The user is authenticated by the access controller using the digital key. The access controller controls and actuator to lock or unlock a door in response to the user being authenticated.

A presence detection system includes a support layer operable to act as an underlying surface for supporting object(s), a sensor layer disposed beneath the support layer and operable to output readings indicating the presence of object(s) supported on the support layer and a controller for receiving the presence readings from the sensor layer and determining, based on the readings, an indicator of the occupancy status and/or an occupancy level of the support layer. The presence detection system can be used within an access gate system whereby the access gate is operated to a blocking position upon the presence detection system detecting more than one human supported on the support layer, this operation overriding a reading of an authenticated user token. The presence detection system can also be used within an elevator system wherein the elevator door subsystem and the elevator displacement subsystem are controlled based on an occupancy level detected by the detection system. Methods for detecting object are also contemplated.

A system for restricting physical access to at least one component process control system component has a locking device that is integrated with process control system security administration data. The locking device accesses the process control system security data when authenticating a user. Upon authentication of a user for physical access to the particular process control component, the user may directly access the component for which the user is authorized. The system provides tracking of all authenticated users and attempts to access the various control system components.

The present disclosure relates to a door lock having an infrared biometrics information collection device. In certain embodiments, the door lock includes, a door with a door handle for opening the door, an infrared light source, and an infrared biometrics information collection sensor. The infrared light source includes one or more infrared light emitters. The infrared biometrics information collection sensor captures at least one infrared image of biometrics information of the one or more fingers of a target human hand. The fingers are positioned between the infrared light source and the infrared biometrics information collection sensor. The infrared light source irradiates infrared light through one or more fingers to generate infrared images of biometrics information of fingers to be captured by infrared biometrics information collection sensor, infrared images of biometrics information captured are used for user authentications, and the door lock can be unlocked by an authenticated user.

It is provided a method for determining when access control of an electronic lock, controlling access to a restricted physical space, should be performed. The method is performed in an intent determiner and comprising the steps of: obtaining movement data from a first sensor of a portable key device, the movement data indicating movement of the portable key device; obtaining a distance indicator from a second sensor, the distance indicator being indicative of distance between the electronic lock and the user; determining when there is user intent to open based on both the movement data and the distance indicator; and triggering access control to be performed only when user intent has been determined.

A wireless device system employs short-range wireless communication to require the proximity of a user device to a defined area prior to communicating a request or notification to the wireless user device. The system authenticates a request and the proximity of the user to or within the defined area prior to transmitting a command, request, or notification to the user or a third party. Additionally, the system uses an access node configured to shape the radiation pattern of short-range wireless communications to better determine the position of a user proximate in or around a defined area.

An authorization controller on a first side of a two-sided system communicates with an accelerometer on the second side for tracking the second side by inertial navigation. The authorization controller activates a radar transmitter and receiver installed on a car to include a plurality of spaced apart transmitting and receiving radar antennas to track the second side by radar. Coherent pulse or Doppler radar waveform tracks motion of an approaching user carrying a tag on the second side that is paired with the car on the first side. The authorization controller uses the radar to look for a pre-programmed pattern of user movement such as a “step in, wait, step out” pattern. Recognition of the programmed pattern activates an associated action from the authorization controller, such as opening or closing a tailgate or side door of the car. The same radar technology can be used with different programmed movement patterns to trigger the opening or closing of side doors, opening/closing of regular doors, deployment of a handicap ramp, deployment of side steps, or other chosen functions that can be initiated by electronic response. Reversing this functionality, the tag may be stationary in a garage and the car may approach the garage, causing operation of the garage door. Other functions inside a house are similarly controlled.