Add to ORKGThis paper presents detailed energy and network models for the intelligent control of a distributed system which also comprises power generation from renewables. The two models provide interactive energy monitoring, intelligent control and power demand balancing at home, block and neighbor level. Particularly, it is here described how the energy model works and also details of how it has been validated are here given. Moreover, it is shown how the energy model simulation results are transferred to the network simulation software SynerGEE, set up by GL Noble Denton Industrial Services Ltd (UK), in order to fully perform network simulations
Energy dynamics in buildings can be described by means of different modelling approaches, depending ...
For the built environment it is envisaged that in the next decades the total annual energy demand, b...
This paper presents the implementation of an Active Distribution Network (ADN) model and its qualita...
This paper presents detailed energy and network models for the intelligent control of a distributed ...
The concept of distributed generation of energy attracts increasing attention nowadays. Such an envi...
Smart energy systems are complex systems (i.e. composed of windmills, PV panels, solar collectors, h...
In the future, global energy balance of a Smart Grid system can be achieved by its agents deciding o...
The synergy between artificial intelligence and power and energy systems is providing promising solu...
Power flows within distribution networks are expected to become increasingly congested with the prol...
Over the course of the 20th century, electrical power systems have become one of the most complex sy...
Power systems must ensure reliable service during normal operation and unexpected disturbances. They...
Distributed generation is becoming increasingly important in energy systems, causing a transition of...
The paper provides continuation research related to the analysis of the structures of combined power...
Electricity networks are becoming more complex due to the integration of renewable and distributed e...
The complexity of energy systems increases as more renewable generation and energy storage technolog...
Energy dynamics in buildings can be described by means of different modelling approaches, depending ...
For the built environment it is envisaged that in the next decades the total annual energy demand, b...
This paper presents the implementation of an Active Distribution Network (ADN) model and its qualita...
This paper presents detailed energy and network models for the intelligent control of a distributed ...
The concept of distributed generation of energy attracts increasing attention nowadays. Such an envi...
Smart energy systems are complex systems (i.e. composed of windmills, PV panels, solar collectors, h...
In the future, global energy balance of a Smart Grid system can be achieved by its agents deciding o...
The synergy between artificial intelligence and power and energy systems is providing promising solu...
Power flows within distribution networks are expected to become increasingly congested with the prol...
Over the course of the 20th century, electrical power systems have become one of the most complex sy...
Power systems must ensure reliable service during normal operation and unexpected disturbances. They...
Distributed generation is becoming increasingly important in energy systems, causing a transition of...
The paper provides continuation research related to the analysis of the structures of combined power...
Electricity networks are becoming more complex due to the integration of renewable and distributed e...
The complexity of energy systems increases as more renewable generation and energy storage technolog...
Energy dynamics in buildings can be described by means of different modelling approaches, depending ...
For the built environment it is envisaged that in the next decades the total annual energy demand, b...
This paper presents the implementation of an Active Distribution Network (ADN) model and its qualita...