A system and method for responding to a triggering event occurring on a premises includes accessing a vault compartment of a vault located on the premises to retrieve a responder tool kit including a ballistic vest, a portable communication device, and a defense device for use in responding to the triggering event. A controller located in the vault compartment is in communication with a monitoring station located off the premises and a biometric authentication device located external to the vault including a bioscanner such as an iris scanner for collecting biodata to authenticate a person external to the vault as a qualified rapid responder. The controller at the time of authenticating the qualified and authorized rapid responder outputs an alarm signal to the monitoring station, alerting the monitoring station to contact emergency services, and unlocks the vault to provide access to the responder tool kit located in the cage assembly.

A system and method for responding to a triggering event occurring on a premises includes accessing a vault compartment of a vault located on the premises to retrieve a responder tool kit including a ballistic vest, a portable communication device, and a defense device for use in responding to the triggering event. A controller located in the vault compartment is in communication with a monitoring station located off the premises and a biometric authentication device located external to the vault including a bioscanner such as an iris scanner for collecting biodata to authenticate a person external to the vault as a qualified rapid responder. The controller at the time of authenticating the qualified and authorized rapid responder outputs an alarm signal to the monitoring station, alerting the monitoring station to contact emergency services, and unlocks the vault to provide access to the responder tool kit located in the cage assembly.

Real-time gunshot detection and reporting. A computing device detects, in an audio signal received by an audio receiver that includes a plurality of audio receiving elements, at least one gunshot. The computing device determines, based on the plurality of audio receiving elements, an audio location of the at least one gunshot. The computing device sends control signals to at least two cameras to cause the at least two cameras to capture at least two corresponding images of the audio location. The computing device, based on the at least two corresponding images, identifies a gunshot location and transmits a gunshot location identifier that identifies the gunshot location to a destination.

Real-time gunshot detection and reporting. A computing device detects, in an audio signal received by an audio receiver that includes a plurality of audio receiving elements, at least one gunshot. The computing device determines, based on the plurality of audio receiving elements, an audio location of the at least one gunshot. The computing device sends control signals to at least two cameras to cause the at least two cameras to capture at least two corresponding images of the audio location. The computing device, based on the at least two corresponding images, identifies a gunshot location and transmits a gunshot location identifier that identifies the gunshot location to a destination.

The Emergency Automatic Gunshot Lockdown (EAGL) System detects gunshots and executes at least one predetermined adaptive response action, such as notifying law enforcement of an active shooter, providing access control measures such as locking down soft target areas, and alerting building occupants of an active shooter situation. A gunshot is detected and verified using a triple validation system. Once a firearm is discharged, the EAGL system sends real time data to building officials, law enforcement, and building occupants notifying them of an active shooter situation. Simultaneously, predetermined commands are sent to access control devices for perimeter, office, classroom, and other soft target areas to lockdown and stay secure, to keep the shooter from entering these soft target areas, and to prevent shooter from entering other buildings.

An Emergency Message Alert System is disclosed. The Emergency Message Alert System may be attached to a television that is placed in a public place such as in an airport. The Emergency Message Alert System monitors television broadcasts and other sources for emergencies that may affect the local area. When the Emergency Message Alert System detects an emergency that affects the nearby area, the system becomes activated and will alert people that an emergency is occurring by displaying a message or flashing LEDs on a front display. When activated, this system will direct the people to watch the information being presented on the accompanying television monitor.

A heat transfer sensor includes a support body, a first thermocouple probe, a second thermocouple probe, and a third thermocouple probe. Each thermocouple probe is mounted to the support body and includes a hollow cylinder, a thermocouple, and an insulator. The thermocouple is mounted to an interior of the associated hollow cylinder and is configured to generate a first voltage based on a temperature of the associated hollow cylinder. The insulator is mounted between the associated hollow cylinder and the top wall. The first hollow cylinder has an emissivity 0.25. The second hollow cylinder has an emissivity 0.75. The third thermocouple probe has an emissivity that is >0.25 and <0.75 or measures a temperature of an environment surrounding the support body. A convective heat transfer and an incident radiation are computed using the first and second voltage and either the third voltage or the air temperature.

A heat transfer sensor includes a support body, a first thermocouple probe, a second thermocouple probe, and a third thermocouple probe. Each thermocouple probe is mounted to the support body and includes a hollow cylinder, a thermocouple, and an insulator. The thermocouple is mounted to an interior of the associated hollow cylinder and is configured to generate a first voltage based on a temperature of the associated hollow cylinder. The insulator is mounted between the associated hollow cylinder and the top wall. The first hollow cylinder has an emissivity 0.25. The second hollow cylinder has an emissivity 0.75. The third thermocouple probe has an emissivity that is >0.25 and <0.75 or measures a temperature of an environment surrounding the support body. A convective heat transfer and an incident radiation are computed using the first and second voltage and either the third voltage or the air temperature.

A first thermostat of a building includes a communications interface configured to communicate with at least one of a second thermostat or a network server, a user interface configured to display information to a user and receive input from the user, and a processing circuit. The processing circuit is configured to generate building navigation direction data for user navigation through the building, cause the user interface to display a first building navigation direction based on the generated building navigation direction data, and cause, via the communications interface, the second thermostat to display a second building navigation direction on a second display of the second thermostat based on the generated building navigation direction data.

A first thermostat of a building includes a communications interface configured to communicate with at least one of a second thermostat or a network server, a user interface configured to display information to a user and receive input from the user, and a processing circuit. The processing circuit is configured to generate building navigation direction data for user navigation through the building, cause the user interface to display a first building navigation direction based on the generated building navigation direction data, and cause, via the communications interface, the second thermostat to display a second building navigation direction on a second display of the second thermostat based on the generated building navigation direction data.