Distributed State Estimation for Microgrids
- Publication Type:
- Conference Proceeding
- Citation:
- IFAC-PapersOnLine, 2017, 50 (1), pp. 10202 - 10207
- Issue Date:
- 2017-07-01
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| Filename | Description | Size | |||
|---|---|---|---|---|---|
| 1-s2.0-S240589631732390X-main.pdf | Published version | 434 kB |
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© 2017 This paper proposes a novel distributed consensus filter based dynamic state estimation algorithm with its convergence analysis for modern power systems. The novelty of the scheme is that the algorithm is designed based on the mean squared error and semidefinite programming approaches. Specifically, the optimal local gain is computed after minimizing the mean squared error between the true and estimated states. The consensus gain is determined by a convex optimization process with a given sub-optimal local gain. Furthermore, the convergence of the proposed schemed is analysed after stacking all the estimation error dynamics. The Laplacian operator is used to represent the interconnected filter structure as a compact error dynamic for deriving the convergence condition of the algorithm. The developed approach is verified by using the mathematical dynamic model of the renewable microgrid. It shows that the proposed distributed scheme is effective to properly estimate the system states.
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