Systems and methods are disclosed for a lock assembly having a touchscreen. The lock assembly includes an interior assembly and an exterior assembly having an exterior lock housing and a touchscreen assembly. The touchscreen assembly includes a touchscreen having selectable icons on a front surface thereof, a printed circuit board assembly (PCBA), and a support structure. The PCBA includes input regions corresponding to the selectable icons and light emitters. The support structure is configured to reflect light emitted from the light emitters through the front surface of the touchscreen.

A circuit for a smart lock includes a state detection unit, a main control chip and a motor driving unit, the state detection unit includes optocoupler sensors U21, U31 and a Hall sensor; the optocoupler sensor U21 is configured to form a first in-position signal, the optocoupler sensor U31 is configured to form a second in-position signal, the Hall sensor is configured to detect whether the state of the lock body is unlocked in position so as to form an auxiliary signal; the main control chip is configured to output a control signal according to the first and second in-position signals and the auxiliary signal; and the motor driving unit is configured to drive the motor to rotate forward or reverse or stop rotating according to the control signal.

In examples, a relative skin reflectance of a captured image of a subject is determined. The determination selects from the captured image pixels of the subject's face and pixels in the background and normalizes luminance values of the skin pixels using the background pixels. The relative skin reflectance value is determined for the captured image, based on the normalized luminance values of the skin pixels. Optionally the relative skin reflectance value is qualified, based on thresholds of skin reflectance values, as suitable for biometric use. Optionally, a non-qualifying captured image is flagged and, optionally, another image is acquired, or the non-conforming image is processed further to transform the image into a suitable image for biometric analysis.

A locker apparatus, method and computer program are provided. The locker apparatus comprises: a plurality of lockers, wherein each locker is for storing a hand portable electronic device, and wherein each locker comprises a receiver configured to receive signals from a hand portable electronic device and comprises a locking mechanism for locking and unlocking the locker; user input circuitry configured to receive inputs from a user; a transmitter; at least one processor; and memory storing at least one computer program having computer program instructions that, when executed by the at least one processor, cause at least the following to be performed: in response to input being received at the user input circuitry identifying a user, identifying a hand portable electronic device for the user; causing the transmitter to a transmit a signal to the hand portable electronic device to cause the hand portable electronic device to output a signal for opening a locker; and if the signal output by the hand portable electronic device is received by one of the receivers, causing the locking mechanism of the locker comprising the receiver that received the signal output by the hand portable electronic device to unlock the locker.

An electronic safety function lock-unlock system includes a human-machine interface (HMI) device. The HMI device includes a touchscreen display for touch input and one or more cameras for capturing gesture input data and operator facial image data. The HMI device is operatively connected to a power switch unit or similar device for selectively interrupting conduction of electrical power to industrial equipment for safety. An operator initiates a lock operation with respect to the equipment using first touchscreen or first gesture input to perform a lock operation to disconnect the industrial equipment from electrical power. An operator initiates an unlock operation or condition (to remove a lock condition) with respect to the equipment using second touchscreen input or second gesture input. The HMI optionally require vocal confirmation from an operator of a requested lock or unlock operation. The HMI can compare a captured image of the operator's face to a database of authorized facial images to determine if the operator is authorized to initiate a lock operation and initiates the lock operation only if the operator is authorized. The power switch unit is set to conduct electrical power to the industrial equipment only if the number of active lock conditions equals zero.

This application relates to systems, methods. devices, and other techniques for a hybrid autonomous store that can be utilized within a retail environment. This system with doors, cameras, and sensors is designed to have many functions within a store with identification system and sometimes can be utilized in a store with or without human cashier.

A biometric exit system controls exit of a person from an area with an asset. The system obtains a digital representation of a biometric for the person. The system receives an identification of the person using the digital representation of the biometric. Using the identification, the system receives permissions regarding whether or not the person may exit the area with the asset. If the person is permitted, the system allows the person to exit. Upon allowing exit, the system may transmit a message to the person. The message may include a confirmation of a transaction and/or one or more offers to which the person can respond.

An inventory tracking scaled locking canister has a housing, a closure, a commodity container positioned within the housing and releasably sealed within the housing by the closure through an electrically disengageable magnetic locking mechanism, at least one weight sensor, a processing unit, a biometric sensor, a digital display, a data storage unit, a wireless communication device, a power source, and a GPS module. The commodity container may have multiple nested frames with perforations that allow smaller byproducts of the contents of the central frame to be separated from the bulk of the contents. The weight of each frame is measured individually through one or more load cells. The biometric sensor prevents unauthorized access to the commodity container. The processing unit facilitates data collection, storage, and transmittal through the wireless communication device to a remote server. The GPS module tracks the location of the canister in case of theft.

A gate apparatus includes a detection unit, an alert unit, and a gate control unit. The detection unit detects whether there is an object in a baggage placement area. The alert unit gives, if there is the object in the baggage placement area, an alert about left-behind baggage. The gate control unit controls, if there is the object in the baggage placement area, a gate such that an examination target user cannot pass through the gate.

A gate apparatus includes a supporting portion, a first light, and a camera device. The support portion is an element that extends vertically upward from a main body of the gate apparatus. The first light is installed in a ceiling portion attached to the supporting portion. The camera device is a device that is attached to the supporting portion and that acquires biological information of a user. The camera device acquires biological information of the user when the first light 102 is illuminating light.