A device to be worn by a subject for determining whether the subject is inside or outside of a containment zone, established by a user moving the device along a plurality of segments about the containment perimeter, the segments crossing the containment perimeter at an angle. There is a positioning unit for generating position data, including satellite positioning data, for the device. There is a processor unit configured to, while in a perimeter learn mode, establish the containment perimeter by receiving at least two segment waypoints from the position data for each of the plurality of segments, determine from the segment waypoints a containment perimeter waypoint for each of the segments and connect the containment perimeter waypoints to establish the containment perimeter. While in a contain mode, the processor determines from the position data if the subject is inside or outside of the containment zone.

A system is provided that includes a security system that protects a secured geographic area, a geographic location outside of the secured area of an authorized human user of the security system saved in a memory of the security system, and a processor of the security system that tracks activity of the authorized user by geographic location outside of the secured area and generates an alert upon detecting that a difference between the tracked geographic location of the authorized user and saved location exceeds a threshold value.

A child tracking system includes an electronic device that may be manipulated. A pair of tracking units is provided. Each of the tracking units may be worn by an associated one of an adult and a child. Each of the tracking units may be in communication with a global positioning satellite. Thus, a physical location corresponding to each of the tracking units may be identified. Each of the tracking units is in electrical communication with the electronic device. Thus, the electronic device may display the physical location corresponding to each of the tracking units. Each of the tracking units has a fingerprint reader to read fingerprints.

Disclosed are techniques for calculating a predicted location of a location tracking device. In an aspect, a wireless communications device detects a breach of a geofence made by the location tracking device, receives data representing a state of the location tracking device, the state of the location tracking device comprising at least a current location of the location tracking device and a velocity of the location tracking device, and determines, based on the data representing the state of the location tracking device, the predicted location of the location tracking device.

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.

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.

An anti-theft system that is capable of being tracked by and automatically notifies the appropriate authorities when leaving a designated geo-fence area. The anti-theft system includes a storage device having two opaque housing portions that can be secured together along their respective peripheries, providing a cavity. The housing portions are opaque except for a cutout in one of the housing portions. The cavity provides a GPS and a mounting display, wherein the mounting display secure a valuable so that it is partially visible through the cutout, while the GPS is not so visible. The GPS tracks and notifies according to predetermined criteria.

A communication system includes at least one first communicator, a second communicator, and a notifier. The at least one first communicator is installable in a boundary area between a first zone and a second zone. The second communicator is installable on a carried object to be carried by a person movable in the first zone. The second communicator communicates with the at least one first communicator. The notifier notifies the person carrying the carried object in response to the second communicator receiving a first signal from the at least one first communicator.

The solution is to create a device, where if the mobile device or important small item is removed beyond a user-defined distance, such as 2 meters, a visual and noise alarm will activate, thus immediately letting the owner and others know that a theft has occurred.

One embodiment of the invention is a device called an Automatic Loss Prevention Alert Trigger (ALPAT) and software on a mobile device called Automatic Loss Prevention Alert Software (ALPAS).

The ALPAT can be in the form of a small device that a person can keep with them and optionally secure to a keychain. The ALPAS will then keep track of whether the ALPAT is more than a user defined distance from the mobile device.

If the mobile device is removed beyond a user determined distance, such as a distance of 2 m from the device, a visual and noise alarm will activate from the mobile device and possibly form the ALPAT, depending on user settings. This will immediately let the owner and others know that a theft has occurred.

Devices, systems, and methods for event detection using distributed event devices are described herein. In some examples, one or more embodiments include a first event device and a second event device, where the first event device is configured to detect an event in an area and wirelessly transmit a notification of the detected event and location information associated with the first event device to the second event device, and where the second event device is configured to receive the notification of the detected event and the location information from the first event device, determine whether the location information matches a location included in a database in response to receiving the detected event, and perform an activation action responsive to determining the location information matches a location included in the database.