A gunshot detection system includes a control panel that receives event data from gunshot sensor units detecting gunshots and generates location information pertaining to a shooting event based on the event data. The control panel includes a display on which a graphical user interface (GUI) is rendered. The GUI displays maps of a building with icons overlaid on the maps based on the generated location information. In one example, the GUI displays a map with an icon representing the active shooter, the position of the icon with respect to the floorplan image corresponding to an area of the building. In another example, the GUI displays a map with icons representing different gunshot sensor units, the icons having different visual characteristics to indicate that the gunshot sensor units detected the gunshots and/or which of the gunshot sensor units was determined to be closest to the detected gunshots.

A gunshot detection system includes a control panel that receives event data from gunshot sensor units detecting gunshots and generates location information pertaining to a shooting event based on the event data. The control panel includes a display on which a graphical user interface (GUI) is rendered. The GUI displays maps of a building with icons overlaid on the maps based on the generated location information. In one example, the GUI displays a map with an icon representing the active shooter, the position of the icon with respect to the floorplan image corresponding to an area of the building. In another example, the GUI displays a map with icons representing different gunshot sensor units, the icons having different visual characteristics to indicate that the gunshot sensor units detected the gunshots and/or which of the gunshot sensor units was determined to be closest to the detected gunshots.

A wireless leak alarm, and wireless valve, apparatus, system, and a method thereof, which may be implemented with leak detectors for any type of fluid, liquid, or gas. The device maybe implemented with any type of sensory detector, such as, for example, a temperature, a moisture, a Carbon Monoxide, a Carbon Dioxide detector. The invention allows the use of a wireless, Bluetooth, Wi-Fi leak detector and monitor. The invention further relates to a system, method, and apparatus for a wireless, Bluetooth, Wi-Fi leak detector, monitor and valve controller. The inventive device includes the ability to communicate via voice message, text message, image, video recording and/or live video, email, and other wireless communication methods as desired by a user responsible for knowing of an event of a fluid or water leak. The Wireless Leak Alarm further has a side camera, side LED, NIR LED, light sensor, and solar panel.

A wireless leak alarm, and wireless valve, apparatus, system, and a method thereof, which may be implemented with leak detectors for any type of fluid, liquid, or gas. The device maybe implemented with any type of sensory detector, such as, for example, a temperature, a moisture, a Carbon Monoxide, a Carbon Dioxide detector. The invention allows the use of a wireless, Bluetooth, Wi-Fi leak detector and monitor. The invention further relates to a system, method, and apparatus for a wireless, Bluetooth, Wi-Fi leak detector, monitor and valve controller. The inventive device includes the ability to communicate via voice message, text message, image, video recording and/or live video, email, and other wireless communication methods as desired by a user responsible for knowing of an event of a fluid or water leak. The Wireless Leak Alarm further has a side camera, side LED, NIR LED, light sensor, and solar panel.

A system for detecting and verifying an environmental anomaly within a shipping container (transported on a transit vehicle having an external transceiver) has wireless sensor-based ID nodes at different locations within the container and multiple command nodes mounted to the container. A first command node is programmatically configured to be operative to detect the sensor data broadcasted from the ID nodes; responsively identify the anomaly based upon the sensor data detected by that command node; and transmit a validation request to another command node. The other command node is configured to be operative to also detect the sensor data broadcasted from the ID nodes; receive the validation request from the first command node; verify the anomaly in response to the validation request and based upon the sensor data detected by the second command node; and broadcast a verification message based upon whether the anomaly for the shipping container is verified.

A single platform for controller functionality for each of security, monitoring and automation, as well as providing a capacity to function as a bidirectional Internet gateway, is provided. Embodiments of the present invention provide such functionality by virtue of a configurable architecture that enables a user to adapt the system for the user's specific needs. Embodiments of the present invention further provide such functionality by providing for installation of removable, modular communication adapters for communication with a variety of devices external to the security, monitoring and automation controller.

A method for monitoring devices based at least in part on detected conditions includes accumulating, by one or more sensory nodes, sensed information in an area that includes a controllable device. The method also includes analyzing the sensed information to identify historical information regarding the area that includes the controllable device. The method also includes sensing a condition within the area by the one or more sensory nodes. The method also includes determining, based at least in part on the sensed condition and at least in part on the historical information, that the sensed condition relates to the controllable device. The method further includes generating, responsive to said determining, an alert regarding the controllable device.

A method for monitoring devices based at least in part on detected conditions includes accumulating, by one or more sensory nodes, sensed information in an area that includes a controllable device. The method also includes analyzing the sensed information to identify historical information regarding the area that includes the controllable device. The method also includes sensing a condition within the area by the one or more sensory nodes. The method also includes determining, based at least in part on the sensed condition and at least in part on the historical information, that the sensed condition relates to the controllable device. The method further includes generating, responsive to said determining, an alert regarding the controllable device.

A corrosion monitoring/alerting system includes a chassis. A corrosion monitoring subsystem identifies a current humidity and a current temperature in the chassis, determines that the current humidity is above a corrosion-alert humidity and the current temperature is below a corrosion-alert temperature and, in response, generates a first corrosion alert signal. A corrosion alert subsystem identifies the first corrosion alert signal and, in response, transmits a first recommended corrosion remediation action communication. The corrosion monitoring subsystem may also transmit a test current through a test computing subsystem connection, determine that a test voltage generated in response to transmitting the test current through the test computing subsystem connection is below a corrosion-alert voltage and, response, generate a second corrosion alert signal. The corrosion alert subsystem may identify the second corrosion alert signal and, in response, transmit a second recommended corrosion remediation action communication.

A corrosion monitoring/alerting system includes a chassis. A corrosion monitoring subsystem identifies a current humidity and a current temperature in the chassis, determines that the current humidity is above a corrosion-alert humidity and the current temperature is below a corrosion-alert temperature and, in response, generates a first corrosion alert signal. A corrosion alert subsystem identifies the first corrosion alert signal and, in response, transmits a first recommended corrosion remediation action communication. The corrosion monitoring subsystem may also transmit a test current through a test computing subsystem connection, determine that a test voltage generated in response to transmitting the test current through the test computing subsystem connection is below a corrosion-alert voltage and, response, generate a second corrosion alert signal. The corrosion alert subsystem may identify the second corrosion alert signal and, in response, transmit a second recommended corrosion remediation action communication.