A system for enabling one person testing and remote control of a fire control panel and generating text-to-speech audio during a walkthrough test of fire alarm system is disclosed. Typically, a technician interacts with a simulated interface displayed on the display of the mobile computing device. In response, commands are generated and sent to the control panel to cause the control panel to perform requested actions. The control panel then sends updated control panel user interface displayed information to the mobile computing device reflecting technician entered commands. Testing of the detection devices on the fire control panel generates event data that is sent to the mobile computing device, which receives the event data and enables a technician to select filtering options. The event data are then parsed to identify keywords and text-to-speech audio is generated for the filtered event data.

In an optical fiber monitoring system which detects physical disturbance or other parameters such as temperature or strain of a fiber where a monitor signal is transmitted along the optical fiber and analyzed to detect changes which are indicative of an event, a method is provided for periodically checking proper operation of the optical fiber monitoring system. A fiber disturbance actuator periodically causes a pattern of disturbances of a portion of the fiber at a predetermined location thereon where the disturbance is characteristic of the event to be monitored. The monitor signal is analyzed to detect the pattern of changes and in the event that expected changes are not detected, a warning is issued that the intrusion detection system is not properly operating.

Systems and methods for handling latent anomalies in field devices are described herein. When an anomaly is detected, the system can earmark the presence of the detected anomaly with a flag or other notification, and announce the existence of the anomaly to a user. In some embodiments, a self-test may be distributed to devices in the field that may be potentially affected by the latent anomaly so that those devices can monitor for the presence of the anomaly and take appropriate action if detected.

Systems and methods for handling latent anomalies in field devices are described herein. When an anomaly is detected, the system can earmark the presence of the detected anomaly with a flag or other notification, and announce the existence of the anomaly to a user. In some embodiments, a self-test may be distributed to devices in the field that may be potentially affected by the latent anomaly so that those devices can monitor for the presence of the anomaly and take appropriate action if detected.

A method of validating a set of location sensors deployed in a facility includes: receiving sensor data from at least a subset of the location sensors; generating a current location of a mobile reference target within the facility based on (i) the sensor data and (ii) expected positions corresponding to the location sensors; based at least on the current location: (i) selecting at least one of the location sensors, and (ii) setting an inspection indicator for the selected location sensor; presenting sensor status data including the inspection indicator via an output device associated with the mobile reference target; and repeating the generating, the selecting, the setting, and the presenting until inspection indicators have been set for each of the location sensors.

A method of validating a set of location sensors deployed in a facility includes: receiving sensor data from at least a subset of the location sensors; generating a current location of a mobile reference target within the facility based on (i) the sensor data and (ii) expected positions corresponding to the location sensors; based at least on the current location: (i) selecting at least one of the location sensors, and (ii) setting an inspection indicator for the selected location sensor; presenting sensor status data including the inspection indicator via an output device associated with the mobile reference target; and repeating the generating, the selecting, the setting, and the presenting until inspection indicators have been set for each of the location sensors.

The present invention relates to a system for testing the availability of a detector for detecting smoke. More specifically, the present invention relates to a detector with a testing unit arranged to detect whether the detector has been covered, such that it is unable to perform its function as a smoke detector.

Methods, devices, and systems for an unmanned system (US) for smoke detector testing are described herein. In some examples, one or more embodiments include a test kit, a processor, and a memory having instructions stored thereon which, when executed by the processor, cause the processor to perform a test procedure on a projected beam smoke detector in a facility using the test kit and communicate a result of the test procedure to a smoke detector network associated with the facility.

An improved fire detector test device and methods for conducting field sensitivity and functionality testing of a fire detector in-situ are provided. The test device can include ambient condition or stimulus generating devices, and a programmable processor, wherein the programmable processor can identify information about a detector under test, wherein the programmable processor can obtain a configuration file based on the identified information about the detector under test, wherein the configuration file can identify a combination, level, or rate of a plurality of stimuli that cause an alarm in the detector under test, and wherein the programmable processor can execute the configuration file to cause the ambient condition or stimulus generating devices to generate and emit the plurality of stimuli in the combination and at the level and the rate identified in the configuration file.

An improved fire detector test device and methods for conducting field sensitivity and functionality testing of a fire detector in-situ are provided. The test device can include ambient condition or stimulus generating devices, and a programmable processor, wherein the programmable processor can identify information about a detector under test, wherein the programmable processor can obtain a configuration file based on the identified information about the detector under test, wherein the configuration file can identify a combination, level, or rate of a plurality of stimuli that cause an alarm in the detector under test, and wherein the programmable processor can execute the configuration file to cause the ambient condition or stimulus generating devices to generate and emit the plurality of stimuli in the combination and at the level and the rate identified in the configuration file.