Abstract—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 present control structures for Smart Grid balancing services on three different levels: portfolio, larger scale individual power units, and aggregations of small power units. Our focus is on illustrating the connection between coordination and control algorithms
This paper discusses the smart energy model of a smart grid using a significant share of renewable e...
Integration of distributed generations that fluctuate widely (such as Photovoltaic panels, Wind powe...
This chapter addresses the balancing problem that arises in smart energy grids. Because power genera...
This work addresses the problem of maintaining the balance between consumption and production in the...
Electricity networks require a balance between supply & demand of power in order to maintain stabili...
An important prerequisite for reliable and stable operation of electrical power grids is that supply...
Due to the increased proportion of small renewable energy sources in a distributed setting (DG-RES),...
The integration of widely fluctuating distributed generation (such as photovoltaic panels, wind powe...
In the future, global energy balance of a Smart Grid system can be achieved by its agents deciding o...
This paper introduces a new energy management system for Smart Grids, designed in the European 7th f...
Integration of unpredictable renewable power sources into the Grid is leading to the development of ...
We present an approach for power balance analysis in Smart Grids where the physical behavior of diff...
This chapter deals with hierarchical model predictive control (MPC) of smart grid systems. The desig...
Smart grids play an important role for energy management by directly supporting the socio-ecological...
The United States electric power grid is the most complex and expansive control system in the world....
This paper discusses the smart energy model of a smart grid using a significant share of renewable e...
Integration of distributed generations that fluctuate widely (such as Photovoltaic panels, Wind powe...
This chapter addresses the balancing problem that arises in smart energy grids. Because power genera...
This work addresses the problem of maintaining the balance between consumption and production in the...
Electricity networks require a balance between supply & demand of power in order to maintain stabili...
An important prerequisite for reliable and stable operation of electrical power grids is that supply...
Due to the increased proportion of small renewable energy sources in a distributed setting (DG-RES),...
The integration of widely fluctuating distributed generation (such as photovoltaic panels, wind powe...
In the future, global energy balance of a Smart Grid system can be achieved by its agents deciding o...
This paper introduces a new energy management system for Smart Grids, designed in the European 7th f...
Integration of unpredictable renewable power sources into the Grid is leading to the development of ...
We present an approach for power balance analysis in Smart Grids where the physical behavior of diff...
This chapter deals with hierarchical model predictive control (MPC) of smart grid systems. The desig...
Smart grids play an important role for energy management by directly supporting the socio-ecological...
The United States electric power grid is the most complex and expansive control system in the world....
This paper discusses the smart energy model of a smart grid using a significant share of renewable e...
Integration of distributed generations that fluctuate widely (such as Photovoltaic panels, Wind powe...
This chapter addresses the balancing problem that arises in smart energy grids. Because power genera...