A wearable device and a system for tracking the wearable device may enhance safety and peace of mind for a parent or caretaker of a child or other individual. The system may include a computing device, such as a smartphone, executing an application that provides alerts based on a distance between the computing device and the wearable device exceeding a threshold distance, based on the wearable device crossing a define geographic boundary, or one or more similar triggers. The wearable device may include an input button that allows a user of the wearable device to send a signal to the computing device of the parent or caretaker. An alert on the computing device might be disabled by pressing the input button on the wearable device.

The present invention provides an improved electronic fall monitoring system comprising a device having multiple sensor ports for flexibly monitoring various sensors associated with a single patient without requiring repeated connections and disconnections of sensors. With several sensors simultaneously connected at different locations, a processor can execute to ensure that only one sensor, corresponding to one patient, is monitored at any given time, including by triggering an alarm when a second sensor is triggered while a first sensor is in use. Accordingly, the system can provide a “one step transfer” in which a caregiver may simply press hold once to transfer a patient from one sensed area to another. In addition, the caregiver can simply actuate a single input with only a momentary press to allow suspension of monitoring for a shorter duration (hold) or a longer press to allow suspension of monitoring for a longer duration (extended hold).

A first electronic device may determine that a distance between the first electronic device and second electronic device has exceeded a threshold distance. The first electronic device may determine whether movement of the first electronic device or movement of the second electronic device caused the distance to exceed the distance threshold. Based upon the determination of whether movement of the first electronic device or movement of the second electronic device caused the threshold to be exceeded, the first electronic device may generate one or more alert notifications to notify the user that the distance has exceeded the threshold.

A device that is configured to track an asset is disclosed. In one aspect, the device includes a radio module that generates proximity data that indicates a distance between the computing device and the device. The device includes a processor that compares the distance between the computing device and the device to a distance threshold. The processor determines that the distance between the computing device and the device satisfies the distance threshold. The processor arms the device. The device includes a motion sensor that generates motion data. The processor compares the motion data to a motion threshold. The processor determines that the motion data satisfies the motion threshold. The processor activates an alarm state.

A computer-implemented method includes receiving, by a base station of a security system, an identification of a shipment package, the identification received from a first security sensor that is part of the security system. The method further includes adding, by the base station, a shipment device of the shipment package as a second security sensor of the security system. The method further includes configuring, by the base station, the shipment device in protect-mode, wherein the shipment device sounds an alarm in response to the shipment being displaced by at least a predetermined distance when in the protect-mode. The method further includes reconfiguring, by the base station, the shipment device in safe-mode in response to receiving, from a customer associated with the shipment package, a confirmation signal that the shipment package has been safely received.

This invention relates to system and a method for supervising a person in an area, the system comprising a mobile base (100), such as for example a wristband,attached to the person, the mobile base (100) comprising a first radio frequency tag (11) prepared for radio frequency triangulation or positioning for deciding a position of the mobile base (100) and for communicating health, safety and environment (HSE) related components, the system comprising a controller (400) in communication with the mobile base (100). Furthermore, the invention relates to a system and a method for activated communication between an object and a reader,comprising a first radio unit (11) attached to the object, the first radio unit being configured for communicating with the reader.

A system, method and device for notifying designated recipients about a personal emergency. An individual maintains a personal emergency alert device (PEAD) in accessible proximity. The PEAD is activated by onboard or remote sensor(s) in proximity to the PEAD. The sensor(s) monitor the occurrence of an emergency activation event. PEAD includes a controller. The controller, triggered by detection of an emergency event by a sensor, activates a geolocation module to obtain geolocation information, formulates an alert message, establishes a network connection, and transmits the message with geolocation information to a personal emergency alert notification service (PEANS). PEANS responds by sending a text, email or other emergency notification to designated notification recipient(s). Once activated, PEAD periodically tracks and transmits its geolocation until it runs out of power. Alternatively, PEAD can be deactivated by sending a deactivation code to the PEANS, which in turn instructs such PEAD to deactivate.

A wireless power transmitting device is disclosed. The wireless power transmitting device includes a first communicator comprising communication circuitry configured to communicate with a wireless power receiving device, a wireless power transmitter configured to supply wireless power to the wireless power receiving device, and a first controller configured to control the wireless power transmitter to supply initiating power for obtaining wireless power efficiency to the wireless power receiving device and to control the wireless power transmitter to supply driving power for driving an electronic device including the wireless power receiving device to the wireless power receiving device based on the wireless power efficiency being a predetermined value or greater based on information received from the wireless power receiving device through the first communicator.

An information handling system includes a host device and multiple monitor devices. One of the monitor devices is configured as a parent monitor device, and the remaining monitor devices are configured as child monitor devices. The parent monitor device receives a user presence detect (UPD) status signal, and queries all of the child monitor devices for a current UPD status. In response to the queries, the parent monitor consolidates the current UPD status from each of the child monitor devices and the current UPD status of the parent monitor device. Based on the consolidated current UPD status and based on a UPD policy, the parent monitor device sets a current user status as a user absence or presence. In response to the processor being in a low power state and the current user status being the user presence, the patent monitor device provides a wake notification to the host device.

Techniques and examples pertaining to a tracking method using a two-component tracking device are described. The tracking device includes two components paired with one another: a first component that is specific to a subject the tracking device is intended to track, and a second component that is generic. The second component is capable of establishing a wireless connection with a cellular network, as well as collecting location information of the second component itself. The tracking method involves receiving from the cellular network a set of requirements associated with the subject, and triggering an action based on the set of requirements and the location information collected. The tracking method enables tracking of multiple subjects without a pairing mistake. Namely, a mismatch between multiple subjects to be tracked and multiple tracking devices intended to track the subjects can be avoided.