An implementation, evaluation and validation of a dynamic fire and conflagration risk indicator for wooden homes
Peer reviewed, Journal article
Published version
Date
2024Metadata
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Original version
10.1016/j.procs.2024.05.195Abstract
The pervasive presence of IoT sensing devices combined with advances in cloud-based services has made historical- and forecast weather data services widely available for use in smart software systems. The contribution of this paper is the design, performance evaluation, and validation of a software implementation of model-based dynamic fire risk prediction for wooden homes using local weather data. A key feature of the implementation is that the software architecture has been designed to support the use of different underlying cloud-based weather data services, and the integration as a service in third-party smart systems embedding fire risk predictions. The performed evaluation shows that the implementation is efficient, as weather data can be retrieved, preprocessed and fire risk predictions computed within seconds using only in the order of Kb’s of memory; and accurate considering our sets of data, as the fire risks computed by the implementation have been validated against a set of in-situ measurements.