A system for locating a detection system within a predetermined area includes a fiber optic harness defining at least one node in communication with the predetermined area. Light is received at the at least one node. At least one emitter is arranged in communication with the at least one node. A control system is operably coupled to the at least one emitter and the at least one node to determine a physical location of the at least one node relative to the predetermined area.

Integrating location information in a fire control system is described herein. One device includes a memory, and a processor configured to execute executable instructions stored in the memory to receive, from a database external to the fire control system, a graphical representation of a facility and location information associated with a number of components of the fire control system that indicates a location of each respective component in the facility, integrate the location information associated with each respective component of the fire control system in the graphical representation of the facility such that the graphical representation includes a representation of each respective component at a location in the graphical representation that corresponds to the location of that component in the facility, and display, in a user interface, the graphical representation of the facility with the location information associated with each respective component of the fire control system integrated therein.

A method for testing a network connection of an emergency response system at least including a remote device and a central station includes: receiving, by the remote device, a user's instruction or an automatically triggered event for initiating a test of the network connection between the remote device and the central station; in response to the user's instruction or the automatically triggered event, sending, by the remote device, a first test signal to the central station; receiving, by the remote device, a first response signal sent from the central station for acknowledging the first test signal; and in response to receiving no first response signal from the central station for acknowledging the first test signal, alerting, by the remote device, a user of the remote device about a failure of the network connection.

Various systems, methods, and/or devices are discussed for diagnosing monitoring system equipment functionality. In some cases methods are discussed that include, inter alia, receiving test results and sending test commands to/from monitor devices. The results are analyzed to determine an operation status. In various cases systems for determining operation status are discussed that include at least two monitor devices. The monitor devices are configured to execute test commands and to provide corresponding results. The results are analyzed to determine an operation status.

Disclosed is an alarm unit having an alarm controller, the alarm controller being operatively connected to a plurality of implements within the alarm unit having a mechanical actuator and a magnetic sensor and at least one of a visual source and an audible source, wherein the alarm unit: monitors for input to initiate one of a plurality of self-tests including: a first test, initiated by actuation of the mechanical actuator without actuation of the magnetic sensor, and a second test, initiated by actuation of the mechanical actuator with actuation of the magnetic sensor, and wherein the first test differs from the second test.

Disclosed is an alarm unit having an alarm controller, the alarm controller being operatively connected to a plurality of implements within the alarm unit having a mechanical actuator and a magnetic sensor and at least one of a visual source and an audible source, wherein the alarm unit: monitors for input to initiate one of a plurality of self-tests including: a first test, initiated by actuation of the mechanical actuator without actuation of the magnetic sensor, and a second test, initiated by actuation of the mechanical actuator with actuation of the magnetic sensor, and wherein the first test differs from the second test.

Various embodiments provide systems and methods for diagnosing monitoring system equipment functionality. In some instances, a first test command is provided to a user attached monitor device and a second test command is provided to a user detached monitor device. A first test result is received from the user attached monitor device and a second test result is received from the user detached monitor device. A combination of the first test result and the second test result is analyzed to determine an operation status.

Devices, methods, and systems for testing a heat detector of a self-testing hazard sensing device are described herein. One device includes a heat detector, and a controller configured to provide energy to the heat detector to heat the heat detector to a threshold temperature, determine an amount of time it takes for the heat detector to heat to the threshold temperature, determine whether the amount of time it takes for the heat detector to heat to the threshold temperature meets or exceeds a threshold amount of time, and determine whether the heat detector is functioning properly based on whether the amount of time it takes for the heat detector to heat to the threshold temperature meets or exceeds the threshold amount of time.

Devices, methods, and systems for a self-testing hazard sensing device are described herein. One device includes a sensor, a wire dipped in a material, a controller configured to provide a current to the wire to heat the material and generate aerosol and/or carbon monoxide, and an airflow generator configured to provide the aerosol and/or carbon monoxide to the sensor. The controller configured to determine whether the self-testing hazard sensing device is functioning properly using the aerosol and/or carbon monoxide provided to the sensor.

Devices, methods, and systems of a self-testing duct environment detector are described herein. One self-testing duct environment detector system includes a first portion to be mounted outside of a duct, the first portion having a detector housing with a space therein, the space having a detector with a sensing chamber and a self-testing sensing apparatus therein, wherein the self-testing sensing apparatus determines whether airflow through the detector housing is above a threshold and a second portion and third portion each configured to extend into the duct, wherein the second portion has at least one inlet aperture formed therein and wherein the third portion has at least on outlet aperture therein.