A system for storing a plurality of tangible assets, the system having an RF component associable with a tangible asset, wherein the RF component has a unique identifier and is configured to receive a carrier signal and emit a modulated carrier signal, wherein modulation of the carrier signal is based on the unique identifier. The system also has an RF detection system having a plurality of RF coils, wherein each coil is arranged to emit a carrier signal and receive the modulated carrier signal emitted by the RF component, a processor in communication with each of the plurality of RF coils, wherein the processor is configured to poll the plurality of RF coils by selectively allowing current to flow through one or more of the plurality of RF coils at a time and identify the RF component based on modulation of the carrier signal.

A retail security system that includes a locking system having locking assemblies that can be locked and unlocked directly by a consumer or clerk/employee using his or her mobile phone or other portable electronic device. Each of the locking assemblies may be configured to lock an article so that it cannot be freely accessed. The security system may include a sanitizing system that sanitizes the article after a consumer returns the article to the locking system without making a purchase. The security system may include a computer apparatus that allows an owner of the security system to access a software application that provides the owner with information/data about access to the locked articles.

A method for operating an adaptive gateline may include detecting a patron approaching a gateline. The method may include determining whether the gateline should be operated in a standard mode or in a modified mode based at least in part on data from one or more sensors. The method may include operating the gateline in the standard mode or in the modified mode based on the determination. In the modified mode a barrier of the gateline operates to provide one or both of extra time or additional space for the patron to pass through the gateline relative to the standard mode.

A system for controlling the locking of accessories by a vehicle includes a vehicle door, a door lock, and an input device configured to receive user input including an unlock request. The system further includes an accessory lock configured to alternate between a locked accessory state and an unlocked accessory state. The system further includes a network access device. The system further includes an ECU designed to determine a door unlock event in response to the input device receiving the unlock request and to control the door lock to alternate from the locked door state to the unlocked door state in response to determining the door unlock event. The ECU is further designed to control the network access device to instruct the accessory lock to alternate from the locked accessory state to the unlocked accessory state in response to determining the door unlock event.

An electronic lock can enter a lockdown mode in response to a lockdown command comprising a mechanical command, e.g. a button or door handle being pressed on the lock in a predefined time-series sequence, or touching the lock in a time-series sequence). Alternatively, an audio or visual command can be issued, e.g. saying certain words or making a hand gesture. The lock may require additional authentication before executing the lockdown command, e.g. recognizing an authorized electronic key. Other embodiments are also provided.

A system for receiving and delivering packages to a building having a package receiving station, a delivery robot and a control system. The package receiving station having a display, an input device, a package receiving area, a robot loading area, at least one package manipulation devices, and a computing device, and the delivery robot capable of interacting with the package receiving station to receive packages to be delivered, such that the package receiving station is capable of receiving a package at the package receiving area, moving it to the robot loading area and loading the package onto the delivery robot and the control system is capable of notifying a recipient of the arrival of the package, coordinating a delivery time, and initiating a package delivery whereby the package is loaded onto the delivery robot and delivered to a location within the building and delivers the package.

Provided are a user verifying bicycle control system and a user verification method thereof, including a sensing module and a control module installed on a bicycle. The sensing module obtains a torque signal and an angle signal from a crank sensing component, further obtains a speed signal from a speed sensing unit, and outputs the torque signal, the angle signal, and the speed signal to the control module; the control module assembles the torque signal, the angle signal, and the speed signal into a signal sequence as a key to verify a user identity for the bicycle.

An access management and reporting system includes a keysafe that is located outside of a building and a communication system that is located within the building. The communication system is configured to perform, over a short-range wireless communication protocol, two-way communication with a communication module of the keysafe. The system also includes a server that is located remote from the building and the keysafe. The server is configured to perform, over a long-range communication protocol, two-way communication with the communication system located within the building, is configured to manage access to the keysafe, and is configured to handle reporting related to access of the keysafe.

Logical boundaries enclosing a physical area are defined. A segment of the logical boundaries is defined as a directional gate, wherein traversing the gate into the physical area is defined as an ingress and traversing the gate out of the physical area is defined as an egress. The directional gate is monitored, and ingresses and egresses are detected. An occupancy count of the physical area is maintained, based on monitoring the gate and detecting ingresses and egresses. One or more conditions are tracked in addition to the occupancy count. Artificial intelligence (AI) processing is applied to the maintained occupancy count and the additional tracked condition(s), in real-time as the monitoring, maintaining and tracking are occurring. One or more responsive actions are automatically taken as a result of applying the AI processing to the maintained occupancy count and the additional tracked condition(s).

In one example, a physical storage enclosure can include a storage area to enclose a device, a locking mechanism to prevent removal of the device from the storage area, a logical configuration system coupled to the device within the storage area, wherein the logical configuration system includes instructions to identify the device within the storage area and alter instructions associated with the device within the storage area, a hardware logistic system coupled to the locking mechanism to activate and deactivate the locking mechanism, and a firewall to restrict communication between the logical configuration system and the hardware logistic system.