Safety of public buildings' users is an important issue, especially in buildings frequented by a great number of people. In such places, in case of an emergency, like a fire, rescue workers must intervene in a timely manner, directing their efforts towards places where there are people to be saved. This work presents an Internet of Things(IoT)-based framework, aiming at monitoring environmental parameters in order to support rescuers during emergencies. The microservices paradigm allows a pattern-based specification of system components that are refined and adapted on-The-fly depending on the specific execution context, based on the changing aspects such as, user's need and requirements, context variables, user's behavior, sensor data. First results related to the validation of the proposed system mainly concerning non-functional requirements of the implemented system through a proof-of-concept are reported and discussed.
A Microservices-based IoT Monitoring System to Improve the Safety in Public Building / Mongiello, Marina; Nocera, Francesco; Parchitelli, Angelo; Riccardi, Luca; Avena, Leonardo; Patrono, Luigi; Sergi, Ilaria; Rametta, Piercosimo. - ELETTRONICO. - (2018). (Intervento presentato al convegno 3rd International Conference on Smart and Sustainable Technologies, SpliTech 2018 tenutosi a Split, Craoatia nel June 26-29, 2018).
A Microservices-based IoT Monitoring System to Improve the Safety in Public Building
Marina Mongiello;Francesco Nocera;Leonardo Avena;
2018-01-01
Abstract
Safety of public buildings' users is an important issue, especially in buildings frequented by a great number of people. In such places, in case of an emergency, like a fire, rescue workers must intervene in a timely manner, directing their efforts towards places where there are people to be saved. This work presents an Internet of Things(IoT)-based framework, aiming at monitoring environmental parameters in order to support rescuers during emergencies. The microservices paradigm allows a pattern-based specification of system components that are refined and adapted on-The-fly depending on the specific execution context, based on the changing aspects such as, user's need and requirements, context variables, user's behavior, sensor data. First results related to the validation of the proposed system mainly concerning non-functional requirements of the implemented system through a proof-of-concept are reported and discussed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
