The present disclosure relates to a temperature prompting method and device. The method includes: acquiring a current temperature in a target container; acquiring a distance of the target container to a target terminal, which is linked to the target container; determining, according to the current temperature, a first time duration to be elapsed when a temperature in the target container changes to a predetermined target temperature; determining, according to the distance of the target container to the target terminal, a second time duration to be elapsed when the target terminal moves to a location where the target container stands; and triggering a prompt signal if the first time duration is less than or equal to the second time duration. According to the present disclosure, temperature control flexibility may be improved.

An adapter base for use with a hazardous condition detector system. The system includes a plurality of detectors (alarms) that are operable to detect at least one hazardous condition in a physical structure such as a building and a control panel that is not electronically compatible with the detectors. At least one adapter base is communicatively coupled to at least one of the plurality of detectors and the control panel. The at least one adapter base can sense an alarm signal from the at least one of the plurality of detectors and transmit an alert signal to the control panel, thereby communicatively coupling all of the plurality of detectors with the control panel.

Disclosed is an intelligent remote monitoring method for fire-fighting, including: S1, pre-loading a protocol parsing configuration file in JSON format; S2, acquiring fire-fighting status information and operation status information of fire-fighting IoT equipment to obtain a data frame of a binary protocol; S3, parsing the data frame according to the configuration file to obtain a JSON data object, and pushing the parsed data of the fire-fighting IoT equipment to a routing layer through data push technology including kafka technology and storing in a fire-fighting database; S4: presetting different application modules according to different application services, and determining a routing direction of the data of the fire-fighting IoT equipment according to rules including a device type and a device status, and routing the data of the corresponding fire-fighting IoT equipment to the corresponding application module through the routing layer for triggering processing of events including alarms and faults, so as to realize remote monitoring of fire-fighting.

Disclosed is an intelligent remote monitoring method for fire-fighting, including: S1, pre-loading a protocol parsing configuration file in JSON format; S2, acquiring fire-fighting status information and operation status information of fire-fighting IoT equipment to obtain a data frame of a binary protocol; S3, parsing the data frame according to the configuration file to obtain a JSON data object, and pushing the parsed data of the fire-fighting IoT equipment to a routing layer through data push technology including kafka technology and storing in a fire-fighting database; S4: presetting different application modules according to different application services, and determining a routing direction of the data of the fire-fighting IoT equipment according to rules including a device type and a device status, and routing the data of the corresponding fire-fighting IoT equipment to the corresponding application module through the routing layer for triggering processing of events including alarms and faults, so as to realize remote monitoring of fire-fighting.

Methods and devices for usage profile based remote firmware upgrades for fire alarm system gateways are described herein. A method, includes creating a firmware upgrade package for a number of gateways of a number of fire alarm systems wherein each gateway has gateway operating firmware, panel connectivity firmware, and management firmware and wherein the firmware upgrade package has multiple parts, creating a firmware upgrade profile having information indicating the applicability of each of the multiple parts of the firmware upgrade package to one of the gateway operating firmware, panel connectivity firmware, and management firmware, comparing the firmware upgrade profile to a gateway usage profile of a particular gateway wherein the gateway usage profile contains information indicating usage characteristics for the gateway operating firmware, panel connectivity firmware, and management firmware, and selecting one or more of the multiple parts of the firmware upgrade package to download.

A detector base for fixing to a mounting surface may include a connection for connecting to a detector line of a hazard alarm system and a first connection side for releasably attaching a hazard detector embodied as a point detector. The first connection side may be electrically and structurally co-ordinated with a second connection side of such a hazard detector, such that the latter is releasably attachable to the detector base and is indirectly connectable via the latter to the detector line. The detector base may include a radio device affixed to the detector base and serving for transmitting position data of the detector base mounting location and/or for transmitting a reference to a database having said position data. The radio device may be based on a Bluetooth low energy standard.

A detector base for fixing to a mounting surface may include a connection for connecting to a detector line of a hazard alarm system and a first connection side for releasably attaching a hazard detector embodied as a point detector. The first connection side may be electrically and structurally co-ordinated with a second connection side of such a hazard detector, such that the latter is releasably attachable to the detector base and is indirectly connectable via the latter to the detector line. The detector base may include a radio device affixed to the detector base and serving for transmitting position data of the detector base mounting location and/or for transmitting a reference to a database having said position data. The radio device may be based on a Bluetooth low energy standard.

A method for operating a consumer communication device is described including receiving content from a service provider, determining if the received content is an emergency alert system notification and communicating the emergency alert system notification to a communication device, if the received content is the emergency alert system notification. Further described is a method for operating an enhanced detection device including receiving an emergency alert system notification, determining if the emergency alert system notification is communicated best by means of sounding an alarm or by means of vocalizing the emergency alert system notification and communicating the emergency alert system notification through a protected structure by means of initiating an alarm or by means of verbalizing the emergency alert system notification.

Methods, devices, and systems for generating a model for a control panel of a fire control system are described herein. One computing device includes a memory and a processor configured to execute executable instructions stored in the memory to: receive a test string from a control panel of a fire control system, the text string comprising a number of values; receive a number of locations from a user, wherein each location of the number of locations is a location within the text string of a value of the number of values corresponding to a variable of a number of variables; generate a model for the control panel based on the number of locations and the number of variables; and store the model in the memory.

Methods, devices, and systems for generating a model for a control panel of a fire control system are described herein. One computing device includes a memory and a processor configured to execute executable instructions stored in the memory to: receive a test string from a control panel of a fire control system, the text string comprising a number of values; receive a number of locations from a user, wherein each location of the number of locations is a location within the text string of a value of the number of values corresponding to a variable of a number of variables; generate a model for the control panel based on the number of locations and the number of variables; and store the model in the memory.