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Stabilization of projection-based reduced-order models. (English) Zbl 1253.90184

Summary: A rigorous method for stabilizing projection-based linear reduced-order models without significantly affecting their accuracy is proposed. Unlike alternative approaches, this method is computationally efficient. It requires primarily the solution of a small-scale convex optimization problem. Furthermore, it is nonintrusive in the sense that it operates directly on readily available reduced-order operators. These can be precomputed using any data compression technique including balanced truncation, balanced proper orthogonal decomposition, proper orthogonal decomposition, or moment matching. The proposed method is illustrated with three applications: the stabilization of the reduction of the Computational Fluid Dynamics-based model of a linearized unsteady supersonic flow, the reduction of a Computational Structural Dynamics system, and the stabilization of the reduction of a coupled Computational Fluid Dynamics-Computational Structural Dynamics model of a linearized aeroelastic system in the transonic flow regime.

MSC:

90C25 Convex programming
76M25 Other numerical methods (fluid mechanics) (MSC2010)
76J20 Supersonic flows

Software:

CVX
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Full Text: DOI

References:

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