Add to ORKGThis paper presents two algorithms for the estimation of the nodal admittance matrix (Y ) on dc microgrids. The first methodology is a gradient-based identification algorithm whereas the second is a projection-based algorithm which includes additional constraints related to the expected structure of the matrix. These constraints are defined in a matrix space R and include symmetry and sparsity. The objective function is a matrix-valued convex function, thus the convergence of the algorithm is guaranteed via convex optimization theory. Simulations results demonstrate the feasibility of the proposed methodology for real-time practical applications considering high variability of the primary resources. BUS N×
A novel power consensus algorithm for DC microgrids is proposed and analyzed. DC microgrids are netw...
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In this paper, the matrix algorithm PFPD is generalized in order to compute the power flow solution ...
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International audienceThis article considers the problem of estimating the parameters of the compoun...
Most techniques for power system analysis model the grid by exact electrical circuits. For instance,...
The increasing integration of intermittent renewable generation, especially at the distribution leve...
Smart grid operations require accurate information on network topology and electrical equipment para...
Calculating nodal voltages and branch current flows in a meshed network is fundamental to electrical...
The increasing integration of controllable energy resources into distribution networks introduces no...
This paper comes from a collaboration between the Department of Industrial Engineering of the Univer...
The paper presents a new algorithm for the identification of a positive real rational transfer matri...
Abstract – The paper proposes a novel method for the optimal parameter selection of the discrete-tim...
Numerical simulation of power systems for real-time simulation applications: This report concerns to...
This paper proposes admittance matrix models to approach the behavior of six modern multiport functi...
A novel power consensus algorithm for DC microgrids is proposed and analyzed. DC microgrids are netw...
The paper describes a newly developed algorithm for power flow solution based on a complex admittanc...
In this paper, the matrix algorithm PFPD is generalized in order to compute the power flow solution ...
The paper considers the problem of estimating the parameters of the compound admittance matrix of th...
International audienceThis article considers the problem of estimating the parameters of the compoun...
Most techniques for power system analysis model the grid by exact electrical circuits. For instance,...
The increasing integration of intermittent renewable generation, especially at the distribution leve...
Smart grid operations require accurate information on network topology and electrical equipment para...
Calculating nodal voltages and branch current flows in a meshed network is fundamental to electrical...
The increasing integration of controllable energy resources into distribution networks introduces no...
This paper comes from a collaboration between the Department of Industrial Engineering of the Univer...
The paper presents a new algorithm for the identification of a positive real rational transfer matri...
Abstract – The paper proposes a novel method for the optimal parameter selection of the discrete-tim...
Numerical simulation of power systems for real-time simulation applications: This report concerns to...
This paper proposes admittance matrix models to approach the behavior of six modern multiport functi...
A novel power consensus algorithm for DC microgrids is proposed and analyzed. DC microgrids are netw...
The paper describes a newly developed algorithm for power flow solution based on a complex admittanc...
In this paper, the matrix algorithm PFPD is generalized in order to compute the power flow solution ...