Example techniques of this disclosure are directed determining one or more values that represent a monitoring attribute for one or more body-worn tracking devices (BWTDs). In some instances, the techniques include determining a compliance metric that represents a level of compliance for at least one offender. That is, the compliance metric may be a quantitative value that represents whether a user wearing BWTD is complying with established rules or desired behaviors.

This document is related to enhanced tracking and reporting. An example method may comprise receiving an electronic signal associated with an officer account. The example method may comprise receiving, by a processor, historical data associated with at least one parolee account that is associated with the officer account. The example method may comprise automatically displaying a second set of user interface elements comprising a plurality of sections. The example method may comprise displaying user check-in data in a first section of the second set of user interface elements. The example method may comprise displaying user location data in a second section of the second set of user interface elements. The example method may comprise displaying user interface elements to approve or deny pending check-ins in a third section of the second set of user interface elements.

A tracking system determines if a tracking device is located within a safe zone based on whether a set of safe conditions are satisfied. The set of safe conditions includes a geographic boundary or a geographic location and corresponding threshold distance. The set of safe conditions can also include a time window during which a safe zone is active. When a tracking device is within a safe zone (e.g., geographically and temporally), the tracking device is determined to be safe, and notifications associated with the tracking device can be minimized. The safe zones may be user-selected, user-defined, or determined based on data analytics. If a set of safe conditions are not satisfied, the tracking system generates and sends a notification to the user of the tracking device indicating that the tracking device may be lost.

An improved wearable locator has an ultra-low power RF transceiver, GPS receiver, cellular network RF transceiver, processor, programmable non-volatile memory, LCD display, accelerometer and rechargeable battery. To ensure that the locator is within a perimeter, it can cooperate with a subordinate unit that includes an ultra-low power RF transceiver, processor, power supply, DC charging output, rechargeable battery, visual, audible and tactile enunciators and pushbutton, and can be plugged into an outlet or be unplugged and be mobile. Other wireless units can be used to define a perimeter.

A device, remote control, and web application for tracking mobile assets are disclosed. The device is attached to the mobile asset. The remote control enables or disables the device, and communicates to a user the location and status of the device. The web application can also be used for tracking the device and providing advanced features. The device includes a GPS transceiver and an accelerometer for determining its location and travel parameters. The web application includes a map to give a visual representation of the device location. Also disclosed is a social networking feature of the device, which is optimally utilized where the device is used for tracking of pets by owners.

Embodiments of the present disclosure disclose a fall-off detection method for a wearable device and a wearable device. The method includes collecting physiological parameter information and activity information of a wearer of the wearable device; when an abnormality is detected in the physiological parameter information of the wearer of the wearable device and a time of the abnormality exceeds a preset time, determining that the wearable device falls off from the wearer; when it is determined that the wearable device falls off from the wearer, determining, according to the collected physiological parameter information and activity information of the wearer of the wearable device, a scenario mode that the wearer is in; and sending, according to the scenario mode that the wearer is in, an indication corresponding to the scenario mode.

A method and system for real-time monitoring of a child held in a child holding object is disclosed. The location tracking system includes child holding object and monitoring device. The child holding object is configured to hold child and includes a mounting space. The monitoring device is configured to be mounted on mounting space. The monitoring device includes mobile camera, modem device, global positioning system (GPS) module and plurality of sensors. The mobile camera is configured to capture and transmit live video stream to continuously track and monitor activities of child held in child holding object. The modem device enables communication between monitoring device and at least one user device over network. The GPS module determines location information of the monitoring device mounted on child holding object by determining GPS coordinates of monitoring device. The plurality of sensors detects change in position of the child seated in child holding object.

Tagged receivers, tracking locator alert systems, and methods of transmitting an alert are disclosed. A tagged receiver receives a command over the network interface hardware, executes the received command, send data indicative of the status of an asset to which the tagged receiver is attached over the network interface hardware, determines an alert event has occurred, and activates an alert in response to determining that the alert event has occurred. The command includes arming the tagged receiver, disarming the tagged receiver, emitting an alert from the tagged receiver, sending data indicative of location, or a combination thereof. The alert event includes the motion sensors sensing a movement of the asset, receiving a command to emit an alert over the network interface hardware, the asset leaving a predetermined geo-fenced area, or a combination thereof.

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.

A child tracking device including a wrist watch lockable onto a child's wrist in operational communication with a remote monitoring receiver unit with a liquid crystal display (hereinafter “LCD”) screen and a remote mobile device, such as a cellular phone, via a software application to continuously track a child's location and to provide an alert in the event the child strays a pre-set distance from either the remote monitoring receiver unit or the remote mobile device or leaves a designated geographical zone.