R. Ebrahimian scite author profile

The authors are to be commended on presenting an interesting and well written paper 1 to address distributed state estimation processing. Their approach is based on decomposition techniques; the power network is divided into geographical areas and the solution of each area subproblem is iteratively coordinated until the optimal integrated solution is achieved. The authors have also presented test results applied to actual large-scale power systems. We would appreciate authors' comments on the following points.We recently presented preliminary results using a similar approach where we address the multi-area state estimation problem [1]. We found that the efficiency of the proposed augmented Lagrangian highly depends on a fine tuning of the , and parameters. However, the authors used identical values for all the test systems presented in the paper. 1 Have the authors explored any strategy for choosing those parameters as a problem-dependent data function? How sensitive is the proposed approach to the starting point 0 ?We find useful to share our experiences in comparing the proposed approach against a standard Lagrangian relaxation technique. The use of the auxiliary principle problem as presented by the authors yielded a fairly efficient approach in terms of number of iterations (six iterations at most). However, the introduction of the quadratic term =2kf a (x) 0f b (y)k 2 (see Section 2.2.1) may lead to slightly different solutions as compared to the ones obtained in a centralized approach. On the other hand, a standard Lagrangian relaxation technique, which usually takes larger number of iterations to converge, may outperform the proposed approach in terms of accuracy. The quadratic term, which is introduced to improve convergence, "convexifies" the dual function associated with problems (1-2) and thus, it leads to slightly different results.In Section 2.3, the authors make reference to communication issues where they state that "only the computed border variables are exchanged between adjacent areas." It should be noted that Lagrange multipliers associated with "f a (x) 0 f b (y) = 0" constraints should also be exchanged between control areas, at least at the first iteration of the algorithm. In the case a central computer controlling the coordination is in charge of not only checking for convergence but also variable updating, Lagrange multipliers should be exchanged at each iteration. In any case, we agree with the authors that the amount of information to be exchanged is quite small.In our experiments, we have found that the number of iterations of the decomposition scheme is related to the following index I:where s t is the apparent power flow through tie-line t, and n t is the total number of tie-lines. This ratio give a measure of the coupling between areas. In our tested systems, it showed to be a good index to get an idea of the rate of convergence of the decomposition approach. The larger the index, the lower the number of iterations to achieve convergence. Could this result be extended to the test sy...

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State estimator condition number analysis

Ebrahimian

Baldick

2001

IEEE Trans. Power Syst.

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show abstract

State Estimator Condition Number Analysis

Ebrahimian

Baldick

2001

IEEE Power Eng. Rev.

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Survey of conducted transients in the electrical system of a passenger automobile

Alkalay

Ebrahimian

Kendall³

et al.

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R. Ebrahimian

State estimation distributed processing [for power systems]

Closure to "state estimation distributed processing"

State estimator condition number analysis

State Estimator Condition Number Analysis

Survey of conducted transients in the electrical system of a passenger automobile

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