Security systems and methods are provided. In one example, a security system includes at least one lock configured to protect one or more items from theft from a fixture, and a strike plate configured to be mounted to the fixture. The lock comprises a plunger pin configured to be moved between a locked state when in engagement with the strike plate and an unlocked state when disengaged from the strike plate, and the lock comprises a cam configured to move the plunger pin between the locked state and the unlocked state. The lock is configured to be moved between a latched position and an unlatched position while the lock is in the unlocked state, the fixture configured to be accessed in the unlatched position, and the strike plate is configured to move relative to the lock to align the lock with the strike plate when the lock is moved from the unlatched position to the latched position.

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.

Security systems and methods are provided. In one example, a security system includes at least one lock configured to protect one or more items from theft from the fixture, wherein the lock comprises a plunger pin configured to be moved between a latched position and an unlatched position, and wherein the fixture is configured to be accessed in the unlatched position. The lock comprises a cam configured to be moved between a locked state and an unlocked state for allowing the plunger pin to be moved between the latched position and the unlatched position when in the unlocked state, wherein the cam is configured to be moved in response to receiving a wireless authorization signal to transition the lock between the locked state and the unlocked state.

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.

Disclosed herein is a vehicle theft prevention device. The device can include a data store including event configuration data. The device can include one or more sensors that can sense various types of measurements proximate to a vehicle. The device can include a computing device in communication with the sensors. The computing device can read measurements from the sensors and determine that a particular event has occurred. The computing device can analyze the measurements to determine the particular event occurred based on the event configuration data. When the particular event occurs, the computing device can perform one or more remedial actions.

A touchless motion sensor system for performing directional motion detection includes first and second touchless motion sensors. First and second sensing units are coupled to the first and second touchless motion sensors each having a sensing unit disable input, a sensing unit disable output, a sensing unit to sensing unit motion detected output, and motion logic. The first sensing unit disable output is coupled to the second sensing unit disable input, and the second sensing unit disable output is coupled to the first sensing unit disable input.

An embodiment system for authenticating a user of a robotaxi includes a smart phone configured to request an authentication of the user based on a digital key, an authentication server configured to create a first authentication number, transmit the first authentication number to the smart phone, receive a second authentication number from the robotaxi when the authentication using the digital key fails, and request unlocking of a door to the robotaxi when the first authentication number and the second authentication number match, and the robotaxi configured to receive the second authentication number from the user, transmit the second authentication number to the authentication server, and unlock the door in response to the request from the authentication server.

A system may include a first security component configured to emanate a signal with an authorizing code, and may have a magnetic field generating device configured to generate a signaling magnetic field including the signal with the authoring code. The system may also include a second security component configured to wirelessly receive the signal with the authorizing code when the second security component is proximate to the signaling magnetic field of the first security component. The second security component may include a magnetic field sensor configured to sense the signal emanating from the magnetic field generating device, and the sensor may be changed between first and second states by a change in the signaling magnetic field.

A smart alarm module includes a connector terminal adapted to provide not more than five conductive paths from a fused box and an audio device of the vehicle to the smart alarm module, a CAN bus interface adapted to make connection to the CAN bus of the vehicle to detect communication protocol, a microcontroller adapted to arm the smart alarm module in response to the information received from the remote controller to provide the smart alarm module judgment operation based on the received information, a sensor adapted to quantized shock waves applied to the vehicle and to feed a first activating signal to the microprocessor when the quantized values exceeds a predetermined value, a power supply regulator providing power to the CAN bus interface, microprocessor, and sensor of the smart alarm module, and an output interface adapted to sound the audio device in response to output signal from the microprocessor.

Provided is a safety checking system that can accurately determine an abnormality of a user or a rearing animal using a lockable space section and can respond to an abnormality, if occurs, more safely, more reliably, and promptly. This invention includes: obtaining, via a management device, sensing data from a sensor detecting biological information of the user or rearing animal using the lockable space section; detecting, via the management device, a significant difference between the sensing data and sensing data obtained in a normal condition or a threshold thereof; requesting, upon detection of the significant difference as necessary, dispatch of an emergency agency to the lockable space section; confirming, via the management device, whether the emergency agency having received the request has arrived at the lockable space section; and causing the management device to issue a signal for carrying out emergency unlocking of a lock in the lockable space section.