This work addresses the problem of maintaining the balance between consumption and production in the electricity grid when volatile resources, such as wind and sun, account for a large percentage of the power generation. We presentcontrol structures for Smart Grid balancing services on three different hierarchical levels: aggregator, large scale consumption and residential consumption. Our focus is on illustrating the connection between coordination and control algorithms at each of these levels
In this paper, we consider the balancing problem in a hierarchical market-based structure for smart ...
We consider a distribution grid interconnecting a number of consumers with flexible power consumptio...
In this paper, we present an architecture for aggregation and control of a portfolio of flexible con...
Abstract—This work addresses the problem of maintaining the balance between consumption and producti...
Demand side management in the future smart grid requires new players in the electricity markets. We ...
Demand response is an important Smart Grid concept that aims at facilitating the integration of vola...
This paper presents an overview of two different perspectives that we take to smart energy systems,b...
This paper deals with hierarchical model predictive control (MPC) of smart grid systems. The design ...
We present an approach for power balance analysis in Smart Grids where the physical behavior of diff...
One of the big challenges in the transition towards smartgrids is how to deal with the intermittent ...
In the future, global energy balance of a Smart Grid system can be achieved by its agents deciding o...
Electricity networks require a balance between supply & demand of power in order to maintain stabili...
The electrical energy consumption continues growing and more applications relay on electricity. We c...
Utilization of consumers to mitigate the impact of increasing renewable resources on power systems i...
Smart grids are characterized by a dynamic nature in which distributed energy resources (DER's) chan...
In this paper, we consider the balancing problem in a hierarchical market-based structure for smart ...
We consider a distribution grid interconnecting a number of consumers with flexible power consumptio...
In this paper, we present an architecture for aggregation and control of a portfolio of flexible con...
Abstract—This work addresses the problem of maintaining the balance between consumption and producti...
Demand side management in the future smart grid requires new players in the electricity markets. We ...
Demand response is an important Smart Grid concept that aims at facilitating the integration of vola...
This paper presents an overview of two different perspectives that we take to smart energy systems,b...
This paper deals with hierarchical model predictive control (MPC) of smart grid systems. The design ...
We present an approach for power balance analysis in Smart Grids where the physical behavior of diff...
One of the big challenges in the transition towards smartgrids is how to deal with the intermittent ...
In the future, global energy balance of a Smart Grid system can be achieved by its agents deciding o...
Electricity networks require a balance between supply & demand of power in order to maintain stabili...
The electrical energy consumption continues growing and more applications relay on electricity. We c...
Utilization of consumers to mitigate the impact of increasing renewable resources on power systems i...
Smart grids are characterized by a dynamic nature in which distributed energy resources (DER's) chan...
In this paper, we consider the balancing problem in a hierarchical market-based structure for smart ...
We consider a distribution grid interconnecting a number of consumers with flexible power consumptio...
In this paper, we present an architecture for aggregation and control of a portfolio of flexible con...