A tracking system determines a location of a tracking device associated with a user using one or more access points at the location. Each access point at the location is configured to detect and couple with the tracking device when the tracking device is within a communicative range of the access point. An access point provides updates on the tracking device's presence, as well as the tracking device's arrival to and departure from the communicative range of the access point, to a tracking server. The tracking server determines, from these updates, whether the tracking device is at the location. The user may be notified, via a mobile device, of the tracking device's location.

Networkable digital life jackets and associated methods are disclosed. An example life jacket includes a state manager and a swarm manager. The state manager is configured to selectively operate the life jacket in one of multiple operational states of the life jacket based on data obtained from one or more sensors of the life jacket. The swarm manager is configured to form a swarm network including the life jacket and one or more other life jackets.

A web-based school emergency notification system and method allows a first teacher user, a first student user, a first administrator user, a first relative user, and an emergency response user to effectively communicate in real time during an emergency event. The system and method are operable on a mobile communication device carried by each user, and through a downloadable EN mobile software application. The software application is communicatively coupled to at least one server over a selectively closed network, allowing the users to send messages in real time. The software application communicatively links the mobile communication devices to a global positioning system. The global positioning system tracks the geolocation of the teacher user and student user at the school. The users can also input a specific location for tracking with the GPS. The users can also message each other in real time during the emergency event to coordinate a response.

A mobile phone connected to a fleet of radio transceiver chips that can be individually identified by the mobile station, which automatically are associated with a photo when the phone camera is used in proximity. The transceiver chips have a small loudspeaker, vibrator and/or light emitter for producing an alarm, and the transceiver chip also can determine and send back its location to the mobile phone. The mobile phone deduces its location by GPS or triangulation, and has an application which can be programmed to check the location of items given predetermined criteria are met, or upon user request. For example the mobile phone can be used to program luggage lists, and check whether everything is with the user at a time. The best mode involves typically a smartphone with relevant application software and RFID tags enhanced by light emitter, loudspeaker and/or vibrator and adhesive.

The invention provides a first object (100) for theft detection of a second object (200), the second object (200) being in pair with a third object (300) for securing the second object (200), the first object (100) comprising: a detector (101) for detecting a second signal (201) of the second object (200) and a third signal (301) of the third object (300) when transmitted within a detection area (103) of the detector (101), and providing a detector output (104); a controller (102) for identifying, by processing the detector output (104), a condition (105) indicating both (i) a pairing of the second signal (201) and the third signal (301), and (ii) the second signal (201) moving out of the detection area (103) while the third signal (301) is not being detected within the detection area (103), and performing a theft detection action (106) when the condition (105) is identified.

An object monitoring system including a plurality of location beacons, each location beacon being configured to generate a location broadcast message indicative of a beacon location and a tag associated with a respective object in use. The includes a tag memory configured to store object rules, a tag transceiver configured to transmit or receive messages and a tag processing device configured to determine context data at least partially indicative of a tag context by at least one of determining a tag location in accordance with at least one location broadcast message received via the tag transceiver from at least one of a plurality of location beacons and using stored context data, use the object rules and the context data to identify a trigger event, determine an action associated with the trigger event and cause the action to be performed.

A tracking system determines a location of a tracking device associated with a user using one or more access points at the location. Each access point at the location is configured to detect and couple with the tracking device when the tracking device is within a communicative range of the access point. An access point provides updates on the tracking device's presence, as well as the tracking device's arrival to and departure from the communicative range of the access point, to a tracking server. The tracking server determines, from these updates, whether the tracking device is at the location. The user may be notified, via a mobile device, of the tracking device's location.

A computer-implemented method includes initiating a plurality of devices, each device corresponding to a member of a group, the group including a plurality of members; monitoring proximity information for each of the plurality of devices relative to at least one other one of the plurality of devices; establishing a maximum distance for the devices to be spaced from each other; and in response to one of the devices being separated from another of the devices by more than the maximum distance, sending an alert to at least one of remaining devices.

A computer-implemented method includes initiating a plurality of devices, each device corresponding to a member of a group, the group including a plurality of members; monitoring proximity information for each of the plurality of devices relative to at least one other one of the plurality of devices; establishing a maximum distance for the devices to be spaced from each other; and in response to one of the devices being separated from another of the devices by more than the maximum distance, sending an alert to at least one of remaining devices.

A mobile phone connected to a fleet of radio transceiver chips that can be individually identified by the mobile station, which automatically are associated with a photo when the phone camera is used in proximity. The transceiver chips have a small loudspeaker, vibrator and/or light emitter for producing an alarm, and the transceiver chip also can determine and send back its location to the mobile phone. The mobile phone deduces its location by GPS or triangulation, and has an application which can be programmed to check the location of items given predetermined criteria are met, or upon user request. For example the mobile phone can be used to program luggage lists, and check whether everything is with the user at a time. The best mode involves typically a smartphone with relevant application software and RFID tags enhanced by light emitter, loudspeaker and/or vibrator and adhesive.