The topic of smart grids has received a lot of attention but from a scientific point of view it is a highly imprecise concept. This paper attempts to describe what could ultimately work as a control process to fulfill the aims usually stated for such grids without throwing away some important principles established by the pioneers in power system control. In modern terms, we need distributed (or multi-agent) learning control which is suggested to work with a certain consensus mechanism which appears to leave room for achieving cyber-physical security, robustness and performance goals. © 2012 IEEE.published_or_final_versio
The current uncertainty about oil and gas prices and their resources, and future energy concerns, sm...
One of the major challenges of existing highly distributed smart grid system is the centralized supe...
The energy industry is undergoing through a reconstruction from a monopolistic electricity market to...
The topic of smart grids has received a lot of attention but from a scientific point of view it is a...
The emerging science of smart grids has often featured people from outside the area of power grids ...
A massive change is currently taking place in the manner in which power networks are operated. Trad...
These lecture notes provide an overview of recent research on the modeling and control of smart grid...
This document highlights the role of control systems in the evolution of the Smart Grid. It includes...
International audienceIn this article, we propose distributed learning based approaches to study the...
It is now widely accepted within the electrical power supply industry that future power systems oper...
Cybersecurity and control for future Smart Grid systems is the topic of this paper, which recommends...
Agents are intelligent entities that act flexibly and autonomously and make wise decisions based on ...
Multi-agent systems are a subject of continuously increasing interest in applied technical sciences....
International audienceIn this paper, we set out our arguments for a new approach to control electric...
The current status of distributed generation technologies and Flexible AC Transmissions (FACTS) Tech...
The current uncertainty about oil and gas prices and their resources, and future energy concerns, sm...
One of the major challenges of existing highly distributed smart grid system is the centralized supe...
The energy industry is undergoing through a reconstruction from a monopolistic electricity market to...
The topic of smart grids has received a lot of attention but from a scientific point of view it is a...
The emerging science of smart grids has often featured people from outside the area of power grids ...
A massive change is currently taking place in the manner in which power networks are operated. Trad...
These lecture notes provide an overview of recent research on the modeling and control of smart grid...
This document highlights the role of control systems in the evolution of the Smart Grid. It includes...
International audienceIn this article, we propose distributed learning based approaches to study the...
It is now widely accepted within the electrical power supply industry that future power systems oper...
Cybersecurity and control for future Smart Grid systems is the topic of this paper, which recommends...
Agents are intelligent entities that act flexibly and autonomously and make wise decisions based on ...
Multi-agent systems are a subject of continuously increasing interest in applied technical sciences....
International audienceIn this paper, we set out our arguments for a new approach to control electric...
The current status of distributed generation technologies and Flexible AC Transmissions (FACTS) Tech...
The current uncertainty about oil and gas prices and their resources, and future energy concerns, sm...
One of the major challenges of existing highly distributed smart grid system is the centralized supe...
The energy industry is undergoing through a reconstruction from a monopolistic electricity market to...