Stomberg, GöstaGöstaStombergEngelmann, AlexanderAlexanderEngelmannFaulwasser, TimmTimmFaulwasser2024-02-272024-02-272022-01-0161st IEEE Conference on Decision and Control (CDC 2022)9781665467612https://hdl.handle.net/11420/46019Decentralized non-convex optimization is important in many problems of practical relevance. Existing decentralized methods, however, typically either lack convergence guarantees for general non-convex problems, or they suffer from a high subproblem complexity. We present a novel bilevel SQP method, where the inner quadratic problems are solved via ADMM. A decentralized stopping criterion from inexact Newton methods allows the early termination of ADMM as an inner algorithm to improve computational efficiency. The method has local convergence guarantees for non-convex problems. Moreover, it only solves sequences of Quadratic Programs, whereas many existing algorithms solve sequences of Nonlinear Programs. The method shows competitive numerical performance for an optimal power flow problem.enComputer SciencesMathematicsConference Paper10.1109/CDC51059.2022.9992379Conference Paper