An embodiment of a minder device includes a selector and a transceiver. The selector is configurable in one of multiple configurations each corresponding to a respective one of multiple responses. And the transceiver is configured to receive, from a host server via a cellular network, a message from a monitor device associated with the minder device, and to send, to the monitor device via a cellular network and the host server, the one of the responses corresponding to the one of the configurations in which the selector is configured. For example, such a device can be a less-expensive alternative to, and can allow more monitor control, than a smart phone. Furthermore, such a device can be suitable for tracking and locating children too young to have a smart phone, for tracking and locating pets, and for tracking and locating objects.

A danger detection system is provided. The system includes a user computing device programmed to receive from a microphone of the computing device a signal indicating a gunshot-like sound and automatically determine if the gunshot-like sound is a gunshot. The user computing device is also programmed to automatically determine a location of the gunshot; and to automatically generate and send to a display of the user computing device a safety notification in response to determining if the gunshot is within a predetermined distance.

Smart LED lighting systems and monitoring methods thereof are provided. An exemplary system includes a smart LED lighting device, and a smart terminal configured to communicate with the smart LED lighting device. The smart LED lighting device includes a microphone module, a voice recognition module, and a wireless communication module sequentially connected in series. The microphone module collects audio signals from surroundings and transmits the audio signals to the voice recognition module, such that the voice recognition module sends the audio signals to the smart terminal via the wireless communication module directly, or voice-recognizes the audio signal using an internal audio recognition software program to generate a notification message to send to the smart terminal via the wireless communication module. In this manner, voices can be collected, recognized, and transmitted to a smart terminal to enable simultaneous indoor lighting and smart monitoring.

A safety system comprised of safety devices each worn by a caretaker and up to three people requiring minding, that alerts using color coded LED lights and audible tones when a monitored person is in danger. The device alerts if the person is beyond a preset distance, is close to or is in a body of water, or signals they are in trouble, using phased-array radar coupled with image processing.

The phased-array radar allows the remote sensing of water in either daylight or night. The phased-array radar comprises multiple antenna elements including an independent antenna element phase shifter allowing beamsteering. The device scans an object using a preset beamsteering algorithm independent of movement. The multiple antenna elements and beamsteering improve image data accuracy which is then interpreted and correlated with a body of water characteristics. The phased-array radar is also used for caretaker-monitored person communications.

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 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 software/mobile app-implemented secure and safe child social networking and parental oversight system and a software/mobile app-implemented method are disclosed which places an emphasis on providing the utmost security and safety features for parents to ensure safe and secure interactions between their children and others. In this way, the secure and safe child social networking and parental oversight system and the software/mobile app-implemented method bring about a vision of the future of kids' social networking in a way that ensures safety and security.

Active radio-frequency identification, RFID, tag, and a product surveillance method using active RFID tags. The method includes: transmitting (202), by an active RFID tag, continuously a signal comprising an own identifier according to a predetermined schedule; receiving (204), by the active RFID tag, continuously a plurality of signals comprising a plurality of foreign identifiers transmitted by a plurality of other active RFID tags according to the predetermined schedule; measuring (206), by the active RFID tag, a received signal strength indication, RSSI, of each received signal; storing (208), by the active RFID tag, each foreign identifier of a signal whose RSSI exceeds a predetermined strength threshold; detecting (210), by the active RFID tag, that a signal with a stored foreign identifier is no more received according to the predetermined schedule and marking (212), by the active RFID tag, said stored foreign identifier.

A system, method, and device for protecting a vehicle occupant over a computerized network. There is an electronic seat pad with an occupant sensor, a driver sensor control module that detects proximity a driver's portable electronic computing device relative to the vehicle; and a key-location sensor that detects proximity of a vehicle key to the vehicle. There is a system management module that determines alert statuses and sends alert and safety notifications to a remote notification device, which automatically registers an alert if a threshold level of safety notifications are not received. There may be pressure, temperature, signal strength, CO2, IR, and other sensors. There is a state library that may be updated to identify additional dangerous states based on sensor readings.

An apparatus (10) comprising: means for determining a current state of each of a first alert module (20_1) and a second alert module (20_2) of a group (22) of alert modules (20), wherein a current state (S_1) of the first alert module (20_1) is dependent upon at least a current location (L_1) of the first alert module (20_1) and a current state (S_2) of the second alert module (20_2) is dependent upon at least a current location (L_2) of the second alert module (20_2); means (30) for providing a first warning signal (W_1) to a first entity (40_1) dependent at least partially on the current state (S_i) of the first alert module (20_1) and/or the second alert module (20_2) of the group (22) of alert modules (20); and means (30) for providing a second warning signal (W_2) to the first entity (40_1) and/or a second entity (40_2) dependent at least partially on the current state (S_i) of the first alert module (20_1) and/or the second alert module (20_2) of the group (22) of alert modules (20).