Aim of this work is to present a model of an intelligent short term demand side management system (DSM) based on a distributed measurement and management data system. The system is designed to improve the profitability of modern self-production energy plants reducing the power consumption and maintaining the same comfort level for users. The DSM problem is modeled as an auction based multi-agent system. The proposed system is composed of a sensor network and a central processing unit. Each network node is handled by an agent and it is able to regulate the power consumption of a single environment (in this work a room of a public building). Each agent reacts to a new critical condition entering in competition with the others to gain the access at a shared limited resource. The competition is regulated by an auction based system. As the first experimental results are showing, the proposed system can be the consumer’s key to maximize the profitability of the self-production energy plants
An auction based agency for demand side management system: An evaluation / DI LECCE, Vincenzo; Quarto, A; Galiano, A; Dassisti, Michele; Chimienti, M.. - (2013), pp. 6555385.77-6555385.82. (Intervento presentato al convegno IEEE International Instrumentation and Measurement Technology Conference, I2MTC 2013 tenutosi a Minneapolis, MN nel May 6-9, 2013) [10.1109/I2MTC.2013.6555385].
An auction based agency for demand side management system: An evaluation
DI LECCE, Vincenzo;DASSISTI, Michele;
2013-01-01
Abstract
Aim of this work is to present a model of an intelligent short term demand side management system (DSM) based on a distributed measurement and management data system. The system is designed to improve the profitability of modern self-production energy plants reducing the power consumption and maintaining the same comfort level for users. The DSM problem is modeled as an auction based multi-agent system. The proposed system is composed of a sensor network and a central processing unit. Each network node is handled by an agent and it is able to regulate the power consumption of a single environment (in this work a room of a public building). Each agent reacts to a new critical condition entering in competition with the others to gain the access at a shared limited resource. The competition is regulated by an auction based system. As the first experimental results are showing, the proposed system can be the consumer’s key to maximize the profitability of the self-production energy plantsI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
