Devices, systems, and methods for event input device testing are described herein. In some examples, one or more embodiments include a controller comprising a memory and a processor to execute instructions stored in the memory to cause a first event input device of a group of event input devices to perform an automated test process, and determine whether a second event input device of the group of event input devices has detected a hazard event while the first event input device is performing the automated test process.

Methods, systems, and apparatus, including computer programs encoded on a storage device, for using a drone to test a sensor. In one aspect, the method includes actions of detecting a message (i) broadcast by the drone and (ii) indicating that the drone is going to administer a test of a sensor, determining, by the monitoring system and based on the message and (i) sensor data generated by the sensor in response to the administration of the test, by the drone, within a predetermined period of time of the message or (ii) a lack of sensor data generated by the sensor in response to the administration of the test, by the drone, within a predetermined period of time of the message, whether the sensor is functioning properly, and in response to a determination that the sensor is not functioning properly, storing data indicating that the sensor is not functioning properly.

A method of operating a sensing component for sensing a magnetic field to determine a state of an access point having a first component and a second component that are separable from each other to create an opening and wherein a magnet is mounted on one of the first or second components of the access point, wherein the method comprises: operating the sensing component to sense a magnetic field in multiple dimensions to produce a sample representation of the sensed magnetic field, wherein the sample representation is a multi-dimensional representation and determining whether the sample representation is in a pre-determined region about a reference representation that is representative of a state of an access point to determine that the sensed magnetic field corresponds to said state of the access point, wherein the pre-determined region comprises a circular cross-section.

A method of operating a sensing component for sensing a magnetic field to determine a state of an access point having a first component and a second component that are separable from each other to create an opening and wherein a magnet is mounted on one of the first or second components of the access point, wherein the method comprises: operating the sensing component to sense a magnetic field in multiple dimensions to produce a sample representation of the sensed magnetic field, wherein the sample representation is a multi-dimensional representation and determining whether the sample representation is in a pre-determined region about a reference representation that is representative of a state of an access point to determine that the sensed magnetic field corresponds to said state of the access point, wherein the pre-determined region comprises a circular cross-section.

Devices, systems, and methods for self-testing event devices of a building alarm system are described herein. One mobile device includes a user interface, a memory, and a processor configured to execute executable instructions stored in the memory to: generate, a list of event devices of an alarm system that are available for testing, providing a device selection tool that allows a user to select a number of event devices from the list of event devices, and providing a self-test initiation tool that generates an initiation message that is to be sent to the selected number of event devices.

Devices, systems, and methods for self-testing event devices of a building alarm system are described herein. One mobile device includes a user interface, a memory, and a processor configured to execute executable instructions stored in the memory to: generate, a list of event devices of an alarm system that are available for testing, providing a device selection tool that allows a user to select a number of event devices from the list of event devices, and providing a self-test initiation tool that generates an initiation message that is to be sent to the selected number of event devices.

Disclosed herein are apparatuses and methods for managing building pathway information. A building and/or security management system can detect, based on receiving input from multiple sensor devices, a possible safety issue in a first pathway to an egress of a building, determine, based on detecting the possible safety issue and based on information regarding other pathways in the building, a second pathway to the egress of the building, and indicate at least the second pathway to another system.

A service system and method using flying service equipment are disclosed. In the service system, flying service equipment such as a drone can be remotely piloted by an operator to perform activities such as installing, configuring, and testing distributed devices such as fire detection devices in a fire alarm system. The service system performs these activities upon distributed devices of a building management system. For this purpose, the service system includes a drone, and a service payload carried by the drone for performing the activities on the distributed devices.

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.

An interface actuator device, an interface actuator system, and a system and method for remotely controlling an interface of a control panel are disclosed. The interface actuator device includes an actuator for controlling the interface of the control panel and an attachment mechanism for mounting the interface actuator device to the control panel. The system can further include a camera for capturing images of the interface and a mobile device for controlling the actuator and viewing the images from the camera.