The content discusses conic relaxations of the optimal power flow (OPF) problem, which provide an efficient alternative to solving the intractable alternating current (AC) OPF. The authors present two equivalent ex post conditions that can be used to verify the exactness of the solution obtained from any conic relaxation of the OPF.
The first condition is that the optimal voltage matrix obtained from the relaxation must be rank-1. The second condition is that the voltage matrix must have self-coherent cycles, meaning that for every cycle in the power network, the imaginary part of the sum of the voltage matrix elements along the cycle is a multiple of 2π.
If either of these conditions is satisfied, the solution obtained from the conic relaxation is guaranteed to be exact and feasible with respect to the original AC-OPF problem. This is in contrast to the stringent a priori conditions typically required for the exactness of conic relaxations, such as radial network topologies.
The authors illustrate the application of these ex post conditions on several MATPOWER test cases, showing that the strong, tight-and-cheap relaxation is the most likely to yield exact solutions among the conic relaxations considered. This suggests that this relaxation could be a good compromise between computational complexity and solution quality for practical OPF implementations.
In eine andere Sprache
aus dem Quellinhalt
arxiv.org
Wichtige Erkenntnisse aus
by Jean-Luc Lup... um arxiv.org 04-12-2024
https://arxiv.org/pdf/2311.07781.pdfTiefere Fragen