In this paper we propose an approach based on an Online Feedback Optimization (OFO) controller with grid input-output sensitivity estimation for real-time grid operation, e.g., at subsecond time scales. The OFO controller uses grid measurements as feedback to update the value of the controllable elements in the grid, and track the solution of a time-varying AC Optimal Power Flow (AC-OPF). Instead of relying on a full grid model, e.g., grid admittance matrix, OFO only requires the steady-state sensitivity relating a change in the controllable inputs, e.g., power injections set-points, to a change in the measured outputs, e.g., voltage magnitudes. Since an inaccurate sensitivity may lead to a model-mismatch and jeopardize the performance, we ...
As the share of grid-connected converters increases, potential stability issues in the grid interfac...
In this paper, we propose an optimal control-estimation architecture for distribution networks, whic...
© 2011 Dr. Kent Charles Barton SteerThe pressures of population growth, environmental damage, resour...
In this paper we propose an approach based on an Online Feedback Optimization (OFO) controller with ...
In this paper, we propose a combined Online Feedback Optimization (OFO) and dynamic estimation appro...
In this paper, we propose a combined Online Feedback Optimization (OFO) and dynamic estimation appro...
The focus of this paper is the online load flow optimization of power systems in closed loop. In con...
International audienceWe consider the problem of controlling heterogeneous controllable resources of...
This paper focuses on the estimation of sensitivity matrices in power grids, with applications in bo...
The increasing integration of distributed energy sources into low-voltage distribution networks and ...
In this thesis, we present a novel control scheme for feedback optimization. That is, we propose a d...
With the recent advent of technology within the smart grid, many conventional concepts of power syst...
Achieving carbon neutrality by 2050 does not only lead to the increasing penetration of renewable en...
Low inertia, nonlinearity and a high level of uncertainty (varying topologies and operating conditio...
In this paper, a simplified multi-step recedinghorizon controller is introduced to control the viol...
As the share of grid-connected converters increases, potential stability issues in the grid interfac...
In this paper, we propose an optimal control-estimation architecture for distribution networks, whic...
© 2011 Dr. Kent Charles Barton SteerThe pressures of population growth, environmental damage, resour...
In this paper we propose an approach based on an Online Feedback Optimization (OFO) controller with ...
In this paper, we propose a combined Online Feedback Optimization (OFO) and dynamic estimation appro...
In this paper, we propose a combined Online Feedback Optimization (OFO) and dynamic estimation appro...
The focus of this paper is the online load flow optimization of power systems in closed loop. In con...
International audienceWe consider the problem of controlling heterogeneous controllable resources of...
This paper focuses on the estimation of sensitivity matrices in power grids, with applications in bo...
The increasing integration of distributed energy sources into low-voltage distribution networks and ...
In this thesis, we present a novel control scheme for feedback optimization. That is, we propose a d...
With the recent advent of technology within the smart grid, many conventional concepts of power syst...
Achieving carbon neutrality by 2050 does not only lead to the increasing penetration of renewable en...
Low inertia, nonlinearity and a high level of uncertainty (varying topologies and operating conditio...
In this paper, a simplified multi-step recedinghorizon controller is introduced to control the viol...
As the share of grid-connected converters increases, potential stability issues in the grid interfac...
In this paper, we propose an optimal control-estimation architecture for distribution networks, whic...
© 2011 Dr. Kent Charles Barton SteerThe pressures of population growth, environmental damage, resour...