Techniques are described for handling duress input. For example, techniques are described for handling duress input provided to a mobile application that controls a monitoring system located at a fixed property.

A system and method for electronic notification of a person(s) in proximity to a given location at the time assistance is needed. A networked system of wireless radio, sound and/or light-based beacons are provided for communicating with a person's smartphone, computer system, or other electronic device. Wireless radio, sound and/or light-based beacons selectively broadcast a configurable data set within a given area of the beacon. The strength of the signal can vary depending on the alert type, time to respond requirements and specific characteristics of the location that would affect the time to respond. Software running on the person's smartphone, computer system, tablet or other electronic device preferably receives the signal(s) broadcast by the wireless radio, sound and/or light-based beacons and decoding the data set broadcast. Depending on the configuration of the system, the decoded data set can cause the software to provide an alert to the person, which can include, but is not limited to, the location and type of alert. The alert may take the form of a visual message on the display of the person's smartphone, computer system, or other electronic device, an audible alert, vibration, and/or other available alerting mechanism on the person's smartphone, computer system or other electronic device.

A system and method for electronic notification of a person(s) in proximity to a given location at the time assistance is needed. A networked system of wireless radio, sound and/or light-based beacons are provided for communicating with a person's smartphone, computer system, or other electronic device. Wireless radio, sound and/or light-based beacons selectively broadcast a configurable data set within a given area of the beacon. The strength of the signal can vary depending on the alert type, time to respond requirements and specific characteristics of the location that would affect the time to respond. Software running on the person's smartphone, computer system, tablet or other electronic device preferably receives the signal(s) broadcast by the wireless radio, sound and/or light-based beacons and decoding the data set broadcast. Depending on the configuration of the system, the decoded data set can cause the software to provide an alert to the person, which can include, but is not limited to, the location and type of alert. The alert may take the form of a visual message on the display of the person's smartphone, computer system, or other electronic device, an audible alert, vibration, and/or other available alerting mechanism on the person's smartphone, computer system or other electronic device.

An electric outlet fire detection and prevention system may comprise a temperature sensor and an electromagnetic interference (EMI) sensor. A processor within the system may monitor the measurements of the temperature and EMI sensors to determine that a fire has developed in an electric outlet box. The processor may then actuate a triggering mechanism in a cartridge containing fire extinguishing material such that the fire extinguishing material is dispersed in the outlet box. The fire extinguishing material may extinguish a developing fire and prevent the fire from spreading further. The processor may also be coupled with a server, which is configured to analyze measurements of the temperature and the EMI sensors and generate a building profile. When the server determines that any measurements deviate from the building profile, the server may instruct the processor to actuate the triggering mechanism and/or notify an electronic device associated with the building.

An electric outlet fire detection and prevention system may comprise a temperature sensor and an electromagnetic interference (EMI) sensor. A processor within the system may monitor the measurements of the temperature and EMI sensors to determine that a fire has developed in an electric outlet box. The processor may then actuate a triggering mechanism in a cartridge containing fire extinguishing material such that the fire extinguishing material is dispersed in the outlet box. The fire extinguishing material may extinguish a developing fire and prevent the fire from spreading further. The processor may also be coupled with a server, which is configured to analyze measurements of the temperature and the EMI sensors and generate a building profile. When the server determines that any measurements deviate from the building profile, the server may instruct the processor to actuate the triggering mechanism and/or notify an electronic device associated with the building.

An early alert and location intelligence geographic information system (GIS) includes a plurality of Internet of Thing (IoT) devices and a GIS system. The GIS system tracks locations and movements of the IoT devices and is activated when an IoT device signals detection of a threat or an urgent medical need. Based on locations and escalating state changes of the IoT devices, alerts are provided to the IoT devices, and the threat location, a danger zone and a buffer zone are calculated and displayed on a mobile software application. Based on device proximity to the threat location, the GIS system communicates escape directions and shelter guidance to the mobile software applications of those affected. Smart alert escalations are provided as needed to security, law enforcement and medical personnel.

A security system includes a security system controller and a plurality of security sensors that are operably coupled with the security system controller. The security system includes a plurality of configuration settings that define when particular alarms are to be issued by the security system based at least in part on events that are detected by the security sensors. The security system controller receives each of the events detected by the security sensors. The security system controller stores event data that includes an event type, a time value indicating when the event occurred, and an identifier of the security sensor that detected the event. The security system controller analyzes the stored event data to identify and output one or more changes to one or more of the plurality of configuration settings in order to reduce false alarms issued by a security system.

Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for automating bulk location-based actions in response to disaster events. A system obtains data defining zones related to different geographic locations and configures a set of preferences for each zone. One of the preferences is a command for responding to an event. The system detects a disaster event and determines that a location affected by the event is related to a zone defined at the system. The system obtains sensor data generated by a sensor in the zone that is connected to a monitoring system for the zone. The system generates an alert based on the sensor data and the command and provides the alert to a client device of an entity that manages properties in the zone. The alert provides an assessment of how the disaster event affects items at properties in the zone.

A monitoring system for a vehicle includes a plurality of surveillance sensors in connection with the vehicle and configured to capture sensor data proximate to the vehicle. A position sensor is configured to detect a location of the vehicle. A controller determines a surveillance mode for the vehicle based on the sensor data and a plurality of security factors associated with the location of the vehicle. The controller activates the surveillance mode in response to the security factors and monitors the sensor data. The controller further filters a plurality of security events from a plurality of benign events and selectively outputs alerts in response to the security events and the benign events.

A monitoring system for a vehicle includes a plurality of surveillance sensors in connection with the vehicle and configured to capture sensor data proximate to the vehicle. A position sensor is configured to detect a location of the vehicle. A controller determines a surveillance mode for the vehicle based on the sensor data and a plurality of security factors associated with the location of the vehicle. The controller activates the surveillance mode in response to the security factors and monitors the sensor data. The controller further filters a plurality of security events from a plurality of benign events and selectively outputs alerts in response to the security events and the benign events.