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.

Provided is a wearable child-monitor system. the system comprises a movable peripheral device associated with a user, the movable peripheral device, comprising: one or more sensors configured to generate output signals conveying information indicating the location of the moveable device with respect to a central unit; a tangible non-transitory machine readable media storing instructions that when executed by one or more processors of the central unit effectuate operations comprising: establish wireless communication between the movable peripheral device and the central unit; define monitoring settings to monitor the location of the movable peripheral device with respect to the central unit; determine information indicating the location of the moveable peripheral device with respect to the central unit; compare the information indicating the location with the defined monitoring settings; and generate an alert responsive to the information indicating the location of the peripheral device breaching the location indicator threshold.

A footwear arrangement including a wireless interface device capable of sending input signals and receiving output signals to a first shoe having a primary controller. The primary controller sends signals to the second shoe, which has a slave controller that is controller that is controlled by signals from the primary controller.

A system and method of loss prevention using a pair of ID tags is disclosed. The user or owner of the protected object can dynamically create a security perimeter by using key ID tag and object ID tag pair. An object ID tag is either embedded in or attached to a protected object. A key ID tag, which is in a handheld device, has protection to prevent unauthorized scan. The object ID tag information can only be obtained from key ID tag using preprogrammed algorithm. The area security system will be armed after reading and validating a key ID tag scanned by the user. If anyone takes protected object with object ID tag out of the area without proper key ID tag authentication, alarm will be triggered.

A user location notification system and a method thereof are provided. The system includes a first signal transmitting device, a first sensing device and a server. The first signal transmitting device transmits a first signal associated with a first user. The first sensing device detects the first signal and transmits a first message according to the first signal. The first sensing device is deployed at a first place. The server receives the first message and transmits a first notification message to a first electronic device according to the first message. The first notification message indicates that the first user is located in a first range adjacent to the first place.

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.

Provided is an electronic lock for wearable electronics, the electronic lock including: a button assembly; a spring assembly coupled to the button assembly, the spring assembly comprising: two bent arms configured to compress under a force applied to the button assembly; and an aperture configured to receive a stopping element when the locking mechanism is in a locked position; an actuator configured to electronically control movement of the stopping element in and out of the aperture; and a control circuit comprising: a tangible non-transitory machine readable media storing instructions that when executed by one or more processors of the control unit effectuate operations comprising: receiving a request to unlock the locking mechanism; sending a request for authentication; receiving authentication information; and controlling the actuator to move the stopping element from the locked position.

A baby detection system and corresponding method are provided. The baby detection system includes a camera configured to capture an input image of a subject purported to be a baby and presented at an electronic-gate system. The baby detection system further includes a memory storing a deep learning model configured to perform a baby detection task for an electronic-gate application corresponding to the electronic-gate system. The baby detection system also includes a processor configured to apply the deep learning model to the input image to provide a baby detection result of either a presence or an absence of an actual baby in relation to the subject purported to be the baby. The baby detection task is configured to evaluate one or more different distractor modalities corresponding to one or more different physical spoofing materials to prevent baby spoofing for the baby detection task.

A smuggling detection system and corresponding method are provided. The smuggling detection system includes a camera configured to capture an input image of a subject purported to be a baby. The smuggling detection system further includes a memory storing a deep learning model configured to perform a baby detection task for a smuggling detection application. The smuggling detection system also includes a processor configured to apply the deep learning model to the input image to provide a baby detection result of either a presence or an absence of an actual baby in relation to the subject purported to be the baby. The baby detection task is configured to evaluate one or more different distractor modalities corresponding to one or more different physical spoofing materials to prevent baby spoofing for the baby detection task.

A mass transit surveillance system and corresponding method are provided. The mass transit surveillance system includes a camera configured to capture an input image of a subject purported to be a baby and presented at a mass transit environment. The mass transit surveillance system further includes a memory storing a deep learning model configured to perform a baby detection task for the mass transit environment. The mass transit surveillance system also includes a processor configured to apply the deep learning model to the input image to provide a baby detection result of either a presence or an absence of an actual baby in relation to the subject purported to be the baby. The baby detection task is configured to evaluate one or more different distractor modalities corresponding to one or more different physical spoofing materials to prevent baby spoofing for the baby detection task.