Systems and methods disclosed for use in identifying and duplicating objects, particularly access devices such as house keys, office keys, automobile keys, and RFID key fobs. Within a singular housing, the customizable systems may include any or all of a key identification system, a key duplication system, an automobile key identification system, and/or an RFID key fob duplication system. Unique capabilities of the systems include the ability to verify that an existing automobile key matches data input by the user pertaining to the associated automobile. Further, the systems reduce frustration, error, and waste by programming a duplicate blank RFID key fob in a fully automated manner within the housing of the machine. To facilitate this process, blank RFID key fobs may be stored inside of the housing within RFID key fob containers that are readily stacked and dispensed.

In some implementations, a card may communicate with an exchange terminal to complete the first exchange associated with an entity, wherein the first exchange is associated with the entity providing a validation of a second exchange associated with a charge for parking a vehicle. The card may receive, from the exchange terminal, an indication of the validation code based on communicating with the exchange terminal to complete the first exchange, wherein the validation code indicates the validation of the second exchange. The card may store the validation code and a time indicator associated with receiving the indication of the validation code. The card may transmit, to an exit terminal, an indication of the validation code and the time indicator to cause an amount associated with the second exchange to be at least partially reduced, wherein the exit terminal is associated with completing exchanges for vehicles parked in the location.

A device agent including an information accessor for accessing association information obtained via an information reader. The association information includes medical device information for uniquely identifying the medical device, and device agent information for facilitating in an association between the medical device and the information reader. The device agent also includes an associator for associating the medical device and the information reader based on the association information.

A parcel delivery system is provided for use in complex having a plurality of tenant units each having a tenant address, wherein the complex further comprising an intake facility, a delivery facility, and parcel storage boxes, and wherein the intake facility comprises a scanning station and a first automated ground delivery vehicle in communication with the scanning station and wherein the delivery facility comprises a second automated ground delivery vehicle configured to travel between the delivery station and tenant units. In accordance with embodiments, a computer system interfaces with the parcel delivery system to notify tenants when they have a parcel and to further notify tenants when delivery of the parcel has been completed.

A mobile work machine includes a wireless communication system configured to receive a wireless communication signal from a transmitter corresponding to a machine component on the mobile work machine, machine component identification logic configured to obtain a machine component identifier, that uniquely identifies the machine component, based on the wireless communication signal, operation detection logic configured to detect a machine operation associated with the machine component and to generate component performance data correlated to the machine component based on the machine operation, and control signal generator logic configured to generate a control signal that controls the mobile work machine based on the component performance data.

A radio frequency identification (RFID) transponder includes a current control module for controlling a current consumption of a memory based on an amount of available power, and a control logic for controlling a memory operation in response to the control of the current consumption by the current control module. The RFID transponder further includes a power detector that is configured to continuously monitor and detect the amount of available power and output a power-dependent control signal. The power-dependent control signal is used by the RFID transponder to control the current consumption of the memory in dependence on the available power.

An attendance tracking device for keeping a restroom cleaning log includes a radio-frequency, RF, module that periodically sends beacon signals and receives at least one response signal from a mobile device of a user. The tracking device further includes an electrophoretic display having a display controller and memory. The display controller executes a method that includes causing the RF module to periodically send beacon signals, detecting a received response signal from the mobile device, creating an attendance log including time stamp information regarding the presence of the mobile device, and triggering an update of the electrophoretic display to display the attendance log. A mobile device can be adapted to implement or be used in connection with the attendance tracking device. A system includes the attendance tracking device and the mobile device. Methods for operating the attendance tracking device and the mobile device are used to implement attendance tracking.

The Tag Element System allows users to create, upload, and share virtual content in the physical world utilizing the Tag Element System platform, “Enhanced Tag Elements”, and a smart device such as a smartphone or tablet. Any user can record a video or create other content and attach it to an Enhanced Tag Element simply by scanning or otherwise interacting with it with their smart device. The system provides a user interface to enable a user to create and upload new content upload previously stored content to the Tag Element System. Once content is uploaded, the user can share the Enhanced Tag Element with another user to allow that user to access, modify, and/or interact with the content.

The present invention provides a method and a system for receiving school data from one school administration device; storing the school data to a remote server; receiving attendance data from one teacher device, dedicated room data from one dedicated hardware device, and unique identification data from one input device; processing the school data, the attendance data, the dedicated room data, and the unique identification data; generating a record of movement; analyzing the school data, the attendance data, the dedicated room data, the unique identification data, and the record of movement to generate an activity identifier; storing the activity identifier and the record of movement to the remote server; generating a visualization; generating a notification; transmitting the notification to the one school administration device, the one teacher device, and one guardian device; and storing the notification.

An agricultural data collection framework is provided in a system and method for tracking and managing livestock, and for analyzing animal conditions such as health, growth, nutrition, and behavior. The framework uses ultra-high frequency interrogation of RFID tags to collect individual animal data across multiple geographical locations, and incorporates artificial intelligence techniques to develop machine learning base models for statistical process controls around each animal for evaluating the animal condition. The framework provides a determination of normality at an individual animal basis or for a specific location, and generates alerts, predictions, and a targeted processing or application schedule for prioritizing and delivering resources when intervention is needed.