A mixed-integer SDP solution to distributionally robust unit commitment with second order moment constraints
A power system unit commitment (UC) problem considering uncertainties of renewable energy sources is investigated in this paper, through a distributionally robust optimization approach. We assume that the first and second order moments of stochastic parameters can be inferred from historical data, a...
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sg-ntu-dr.10356-1453712020-12-18T08:10:03Z A mixed-integer SDP solution to distributionally robust unit commitment with second order moment constraints Zheng, Xiaodong Chen, Haoyong Xu, Yan Li, Zhengmao Lin, Zhenjia Liang, Zipeng School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Distributionally Robust Optimization Mixed-integer Semidefinite Programming A power system unit commitment (UC) problem considering uncertainties of renewable energy sources is investigated in this paper, through a distributionally robust optimization approach. We assume that the first and second order moments of stochastic parameters can be inferred from historical data, and then employed to model the set of probability distributions. The resulting problem is a two-stage distributionally robust unit commitment with second order moment constraints, and we show that it can be recast as a mixed-integer semidefinite programming (MI-SDP) with finite constraints. The solution algorithm of the problem comprises solving a series of relaxed MI-SDPs and a subroutine of feasibility checking and vertex generation. Based on the verification of strong duality of the semidefinite programming (SDP) problems, we propose a cutting plane algorithm for solving the MI-SDPs; we also introduce a SDP relaxation for the feasibility checking problem, which is an intractable biconvex optimization. Experimental results on a IEEE 6-bus system are presented, showing that without any tunings of parameters, the real-time operation cost of distributionally robust UC method outperforms those of deterministic UC and two-stage robust UC methods in general, and our method also enjoys higher reliability of dispatch operation. Published version 2020-12-18T08:10:03Z 2020-12-18T08:10:03Z 2020 Journal Article Zheng, X., Chen, H., Xu, Y., Li, Z., Lin, Z., & Liang, Z. (2020). A mixed-integer SDP solution to distributionally robust unit commitment with second order moment constraints. CSEE Journal of Power and Energy Systems, 6(2), 374-383. doi:10.17775/CSEEJPES.2019.00930 2096-0042 https://hdl.handle.net/10356/145371 10.17775/CSEEJPES.2019.00930 2 6 374 383 en CSEE Journal of Power and Energy Systems © 2019 CSEE. This is an open-access article distributed under the terms of the Creative Commons Attribution License. application/pdf |
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Engineering::Electrical and electronic engineering Distributionally Robust Optimization Mixed-integer Semidefinite Programming |
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Engineering::Electrical and electronic engineering Distributionally Robust Optimization Mixed-integer Semidefinite Programming Zheng, Xiaodong Chen, Haoyong Xu, Yan Li, Zhengmao Lin, Zhenjia Liang, Zipeng A mixed-integer SDP solution to distributionally robust unit commitment with second order moment constraints |
| description |
A power system unit commitment (UC) problem considering uncertainties of renewable energy sources is investigated in this paper, through a distributionally robust optimization approach. We assume that the first and second order moments of stochastic parameters can be inferred from historical data, and then employed to model the set of probability distributions. The resulting problem is a two-stage distributionally robust unit commitment with second order moment constraints, and we show that it can be recast as a mixed-integer semidefinite programming (MI-SDP) with finite constraints. The solution algorithm of the problem comprises solving a series of relaxed MI-SDPs and a subroutine of feasibility checking and vertex generation. Based on the verification of strong duality of the semidefinite programming (SDP) problems, we propose a cutting plane algorithm for solving the MI-SDPs; we also introduce a SDP relaxation for the feasibility checking problem, which is an intractable biconvex optimization. Experimental results on a IEEE 6-bus system are presented, showing that without any tunings of parameters, the real-time operation cost of distributionally robust UC method outperforms those of deterministic UC and two-stage robust UC methods in general, and our method also enjoys higher reliability of dispatch operation. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zheng, Xiaodong Chen, Haoyong Xu, Yan Li, Zhengmao Lin, Zhenjia Liang, Zipeng |
| format |
Article |
| author |
Zheng, Xiaodong Chen, Haoyong Xu, Yan Li, Zhengmao Lin, Zhenjia Liang, Zipeng |
| author_sort |
Zheng, Xiaodong |
| title |
A mixed-integer SDP solution to distributionally robust unit commitment with second order moment constraints |
| title_short |
A mixed-integer SDP solution to distributionally robust unit commitment with second order moment constraints |
| title_full |
A mixed-integer SDP solution to distributionally robust unit commitment with second order moment constraints |
| title_fullStr |
A mixed-integer SDP solution to distributionally robust unit commitment with second order moment constraints |
| title_full_unstemmed |
A mixed-integer SDP solution to distributionally robust unit commitment with second order moment constraints |
| title_sort |
mixed-integer sdp solution to distributionally robust unit commitment with second order moment constraints |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/145371 |
| _version_ |
1688665451510366208 |