Implementations of a child safety system is provided. Implementations of a child safety system comprises portable transmitter configured to transmits a wireless signal compatible with Bluetooth technology and a portable computing device configured to receive the wireless signal and compute a distance between the portable computing device and the transmitter based on the signal strength of the wireless signal received. The portable computing device further is configured to sound an alarm on the portable computing device once the distance between the portable computing device and the portable transmitter equals or exceeds a preset distance.

An occupant detection device includes: a face area detecting unit for executing a process of detecting a plurality of face areas corresponding to a plurality of faces in an image captured by a camera for capturing an image of a vehicle interior; a first determination unit for determining whether or not, among a plurality of seat areas corresponding to a plurality of seats in the captured image, there is a seat area including two or more face areas; a second determination unit for determining whether or not a duration time of a state where there is a seat area including two or more face areas has exceeded a reference time; and a warning output control unit for executing control for outputting a warning when the duration time exceeds the reference time.

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 interactive monitoring system, comprising an object located in proximity to a first user and a remote display device, communicably coupled with the object over a communication network is disclosed. The object comprises a plurality of sensors that detects a generic event performed by the first user and cause a plurality of electronic units located on the object to activate based on the detected generic event performed by the first user. Remote display device display a field-of-view (FOV) captured by a first electronic unit of the activated plurality of electronic units. A second user associated with the remote display device communicates with the first user associated with the object over the communication network. The interactive monitoring system is Bluetooth compatible and the speakers can be found on both ears.

A method for detecting allergic reaction and alerting a guardian device includes registering a wearable device to associate the wearable device with the guardian device. The wearable device then monitors vital signs to determine whether the vital signs are within an acceptable range. Based on the vital signs being outside the acceptable range, the wearable device sends an alert to the guardian device and determines whether a confirmation signal is received from the guardian device.

A method and system for presenting location information on mobile devices is discussed. The method includes tracking, at a mobile device associated with a user, mobile device locations of additional mobile devices associated with additional users. Each of the mobile device locations can be determined based on data indicating location data transmissions of respective additional mobile devices. The method includes providing an interactive map interface on a device display on the mobile device, the interactive map interface indicating, based on the tracking, location representations of locations and user representations of the additional users. The interactive map interface indicates a geofence generated using a location selected by the user. The method also includes displaying, responsive to a determination based on the tracking that one of the mobile devices has entered an area of the geofence, an alert on the device display.

A method for providing incentives based on geolocation of mobile devices is discussed. The method includes determining a first location of a mobile device based on IP address, GPS signals, Wi-Fi signals, and/or cellular signals. The method includes communicating with a server to obtain first merchant data, for a first geofence for the first location, which is accessed to obtain a first merchant subset. The method includes displaying an interactive map interface, on the mobile device, indicating icons for the first merchant subset. The method includes determining an area of interest, based on a user input, which is used by communicating with a server to obtain second merchant data for a second geofence. The second merchant data is accessed to obtain a second subset of merchants for the second geofence. The method includes displaying, on user interface, icons associated with the second subset of merchants.

Methods and systems are provided for delivering location-based services, wherein the location-based services may include storing data defining a plurality of physical locations and a plurality of geofences associated with the physical locations, monitoring a current location of a user device, comparing the current location of the user device with each of the geofences, and determining based on the comparison that the current location of the user device is within a particular geofence. Rankings are assigned to the physical locations associated with the particular geofence based on various criteria, including, for example, distances between the user device and the physical locations, user interactions with the physical locations, user preferences, demographics, or consumer purchase history. User-selectable icons corresponding to the physical locations are output at the user device, wherein the positions of the user-selectable icons in an interface are determined based on the assigned rankings.

Methods and systems are provided for delivering location-based services. Data defining a plurality of geofences and categories relating to points of interest is stored. A current location of a user device is monitored, and is compared with each of the plurality of geofences. Based on the comparison, the user device is determined to be within a geofence associated with one or more points of interest. One or more particular points of interest are identified from among those associated with the geofence based on a user-selected category. Links associated with the particular points of interest are output at an interface of the user device, wherein a selection of a particular link directs a web browser of the user device to a web resource associated with at least one of the particular points of interest.

A method and system for presenting location-based alerts on mobile devices is discussed. The method includes tracking user locations of users based on mobile device locations of mobile devices associated with the users. The mobile device locations can be determined based on location data transmissions from the mobile devices, with respective transmission lengths based on user preferences. The method includes presenting an interactive map interface for display on a first mobile device of a first user. The interactive map interface can display, based on the tracking, names of locations and the user locations. The interactive map interface can display pictures, each associated with a respective location or a user. In response to a determination, based on the tracking, that a second mobile device of a second user has arrived at a location defined by a geofence, a location notification can be pushed to the first mobile device.