The invention concerns a locking mechanism (10) configured to switch from a locked state to an unlocked state, comprising: a. a processor (11) configured to read an identification code of an identification key (13) and configured to cause the locking mechanism (10) to switch from the locked state to the unlocked state if the identification code of the identification key (13) is an authorized code of the locking mechanism (10), b. a printed circuit board (14) in a first plane comprising an aperture (15) configured to accept insertion of the identification key (13) according to a first axis (Y) secant to the printed circuit board (14), the identification key (13) comprising a NFC passive part (16), c. a NFC active part comprising a wire antenna (18) positioned on the printed circuit board (14), the wire antenna (18) comprising a first at least one winding around the aperture (15), the wire antenna being connected to the processor (11),

wherein the locking mechanism is configured to establish a NFC communication between the NFC active part of the locking mechanism and the NFC passive part (16) of the identification key (13) when the identification key (13) is inserted into the aperture (15).

An electronic lock is configured to receive a wireless power transmission from a portable electronic device such as a tablet or smartphone. The electronic lock can also be configured to simultaneously receive a data transmission from the smartphone requesting operation of a lock actuator of the electronic lock. Power from the wireless power transmission can be used to electrically power the microprocessor and the lock actuator.

A method for seamless access control according to one embodiment includes determining whether a user is authorized to access a passageway controlled by an access control device based on credential data received from a mobile device of the user, determining, by a RADAR system, a location of the user relative to the passageway, determining whether the user intends to access the passageway based on the determined location of the user relative to the passageway, and controlling, by the access control device, a lock mechanism to allow the user access to the passageway in response to determining that the user is authorized to access the passageway and the user intends to access the passageway.

An electronic lock includes an interior subassembly including a manual turnpiece, a control circuit, and a motor actuatable by the control circuit, and an exterior subassembly including a facial authentication circuit operatively connected to the control circuit. The electronic lock includes a latch operatively connected to the interior subassembly, the latch being engageable by the manual turnpiece or the motor to move the electronic lock between a locked state and an unlocked state. The facial authentication circuit includes at least one camera and is configured to generate an authentication signal to the control circuit, and wherein, at least in part in response to the authentication signal, the control circuit is configured to actuate the motor to move the electronic lock between the locked state and the unlocked state.

An electronic lock includes a circuit to secure a room, electrical device, or other resource. A controller is coupled to the circuit and to a short-range wireless interface. The controller controls the circuit to provide access to the resource based on cryptographic access data provided by a wireless mobile device via the short-range wireless interface. The controller may be provided to an electrical box (e.g., back box, junction box, etc.) or other type of housing and may be connected to a light switch or fixture circuit.

An apparatus includes a controller configured to initiate attachment of a first locking bar of a transport container to a first anchor point of a structure by adjusting the first locking bar from a first unlocked state to a first locked state. The controller is also configured to confirm a locking of the first locking bar to the first anchor point. The controller is further configured to, in response to confirming the locking, initiate a release of a second locking bar of the transport container from a second anchor point by adjusting the second locking bar from a second locked state to a second unlocked state.

A system according to an embodiment includes electronic lock and key of which the electronic lock can be installed on a portal such as a door. The electronic lock is capable of contact-less authentication of the electronic key carried in person by a user, and also determines the open/close condition of the door panel with respect to the door frame. Being an add-on, there is no need to replace or modify the existing mechanical lock at the door. The electronic key does not require any batteries to operate, being powered by the electronic lock through wireless transfer of power through the door panel. After a successful authentication of the electronic key, the electronic lock clears the user to open the door. An attempted illegal entry by force or using duplicate key of the mechanical lock without electronic authentication is considered intrusion. Once an intrusion is detected, the system generates an alarm at the premises as well informs multiple mobile devices (e.g., cell phone) anywhere in the world through a wireless network. The electronic lock can be powered by a battery or AC source depending on the installation scenario.

An apparatus includes a controller configured to initiate attachment of a first locking bar of a transport container to a first anchor point of a structure by adjusting the first locking bar from a first unlocked state to a first locked state. The controller is also configured to confirm a locking of the first locking bar to the first anchor point. The controller is further configured to, in response to confirming the locking, initiate a release of a second locking bar of the transport container from a second anchor point by adjusting the second locking bar from a second locked state to a second unlocked state.

A method and system for communicating with wireless messaging enabled door locks is disclosed. The method includes advertising availability of the door lock via wireless messaging for a first period of time; triggering a message send event; determining a destination node; connecting to the destination node via Bluetooth; sending the message to the destination node; and entering a low power state for a second period of time, wherein the second period of time is longer than the first period of time; wherein the destination node is chosen from a second door lock or a computing system.

Various implementations of an electric strike are described that includes a casing housing that includes a power source, a lock mechanism, circuitry powered by the power source, the circuitry being configured to authenticate a user, and electro-mechanically actuate the lock mechanism, and a rotor coupled to the lock mechanism, the rotor being powered by the power source and configured to situate the lock mechanism based on a lock state of the electric strike.