The present disclosure provides an intelligent lighting control system configured for automated lighting adjustments. A light control module of the lighting control system receives a signal, such as an alarm signal, from an electronic device, such as a mobile electronic device. The light control module is configured to cause a transmission of a quantity of electrical energy to a lighting circuit of a light fixture electrically connected to the lighting control module. The light control module causes a quantity of electrical energy to be transmitted to a lighting circuit at a particular time of day determined based on the alarm signal.

A system, method, and wireless earpieces for determining the status of the user. Sensor measurements of the user are performed utilizing a radar sensor of the wireless earpieces. The sensor measurements are analyzed. The status of the user is determined utilizing at least the sensor measurements of the radar sensor of the wireless earpieces. An alert is communicated to the user in response to there being a change in the status of the user.

The present invention provides a system and methods for notifying first responders of the general or specific location of a security crisis or threat in a building or public location, and the type of threat or crisis that has occurred, while notifying building occupants or others in the public location of the crisis and how to respond. The crisis management and notification system provides critical information to the first responders, including initial location of the crisis and whether the crisis location has changed in real time, audio and video input of the crisis arena, communications with designated occupants in the crisis arena, static building or location information, and other information. The crisis notification system can be scaled to allow the effective use in facilities of differing sizes and layouts. The system is also flexible, enabling the system to integrate with currently existing systems or to operate with new devices.

The present invention provides a system and methods for notifying first responders of the general or specific location of a security crisis or threat in a building or public location, and the type of threat or crisis that has occurred, while notifying building occupants or others in the public location of the crisis and how to respond. The crisis management and notification system provides critical information to the first responders, including initial location of the crisis and whether the crisis location has changed in real time, audio and video input of the crisis arena, communications with designated occupants in the crisis arena, static building or location information, and other information. The crisis notification system can be scaled to allow the effective use in facilities of differing sizes and layouts. The system is also flexible, enabling the system to integrate with currently existing systems or to operate with new devices.

Embodiments of a central security monitoring device for reducing incidences of false alarms in a security system is disclosed. In one embodiment, a method is described, comprising receiving an alarm signal from an occupancy sensor via a receiver, receiving a second alarm signal from a barrier alarm device after receiving the alarm signal, determining, by a processor, an elapsed time from when the alarm signal from the occupancy sensor was received to when the second alarm signal from the barrier alarm device was received, transmitting, by the processor via a network interface, a message to a personal communication device indicating that a false alarm has occurred when the elapsed time is less than the predetermined time.

Embodiments of a central security monitoring device for reducing incidences of false alarms in a security system is disclosed. In one embodiment, a method is described, comprising receiving an alarm signal from an occupancy sensor via a receiver, receiving a second alarm signal from a barrier alarm device after receiving the alarm signal, determining, by a processor, an elapsed time from when the alarm signal from the occupancy sensor was received to when the second alarm signal from the barrier alarm device was received, transmitting, by the processor via a network interface, a message to a personal communication device indicating that a false alarm has occurred when the elapsed time is less than the predetermined time.

An appliance hub for use in an upper portion of an enclosure can include a substrate configured to be positioned in an upper portion of an enclosure. The appliance hub can include a climate control apparatus mounted on the substrate and the climate control apparatus can be configured to regulate a temperature within the enclosure. The appliance hub can include one or more lighting elements configured to provide light within the enclosure, a plurality of fluid lines connected to the substrate and configured to provide fluid service and return to the climate control apparatus, and/or a plurality of electrical connections connected to the substrate and configured to provide electrical power and/or data to at least one of the climate control apparatus and the one or more lighting elements.

A detector 100 includes an outer cover 11; and a light emitter that outputs information by causing at least a part of the detector 100 to emit light, wherein the light emitter causes at least a protective portion 12 to emit the light, the protective portion 12 accommodating a thermistor that detects a physical quantity of a detection target, and protruding from the outer cover 11, the protective portion 12 guides the light from the light emitter, and emits the light, the detector 100 further includes a light guide portion 111 formed in at least a part of the outer cover 11, and the light emitter causes the light guide portion 111 to emit the light, and a light emitting surface of the light guide portion 111 extends from a front portion side of the outer cover 11 to a side portion side of the outer cover 11, and the light emitting surface of the light guide portion 111 has a linear shape when viewed from the front portion side of the outer cover 11.

A detector 100 includes an outer cover 11; and a light emitter that outputs information by causing at least a part of the detector 100 to emit light, wherein the light emitter causes at least a protective portion 12 to emit the light, the protective portion 12 accommodating a thermistor that detects a physical quantity of a detection target, and protruding from the outer cover 11, the protective portion 12 guides the light from the light emitter, and emits the light, the detector 100 further includes a light guide portion 111 formed in at least a part of the outer cover 11, and the light emitter causes the light guide portion 111 to emit the light, and a light emitting surface of the light guide portion 111 extends from a front portion side of the outer cover 11 to a side portion side of the outer cover 11, and the light emitting surface of the light guide portion 111 has a linear shape when viewed from the front portion side of the outer cover 11.

A system for determining whether shoppers are eligible for frictionless checkout is disclosed. The system has a processor that obtains image data captured using image sensors positioned in a retail store. The processor analyzes the image data to identify at least one shopper at one or more locations of the retail store. The processor detects, based on the analysis of the image data, at least one product interaction event associated with an action of the at least one shopper at the one or more locations of the retail store. Further, based on the detected at least one product interaction event, the processor determines whether the at least one shopper is eligible for frictionless checkout. In response to a determination that the at least one shopper is ineligible for frictionless checkout, the processor causes delivery of an indicator that the at least one shopper is ineligible for frictionless checkout.