1. A new fast method to compute saddle-points in constrained optimization and applications
- Author
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Angot, Philippe, Caltagirone, Jean-Paul, and Fabrie, Pierre
- Subjects
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ALGORITHMS , *MATHEMATICAL optimization , *WORD problems (Mathematics) , *PARAMETER estimation , *APPROXIMATION theory , *NUMERICAL analysis , *LAGRANGE equations - Abstract
Abstract: The solution of the augmented Lagrangian related system is a key ingredient of many iterative algorithms for the solution of saddle-point problems in constrained optimization with quasi-Newton methods. However, such problems are ill-conditioned when the penalty parameter tends to zero, whereas the error vanishes as . We present a new fast method based on a splitting penalty scheme to solve such problems with a judicious prediction–correction method. We prove that, due to the adapted right-hand side, the solution of the correction step only requires the approximation of operators independent of , when is taken sufficiently small. Hence, the proposed method is as cheaper as tends to zero. We apply the two-step scheme to efficiently solve the saddle-point problem with a penalty method. Indeed, that fully justifies the interest of the vector penalty-projection methods recently proposed by Angot et al. (2008) to solve the unsteady incompressible Navier–Stokes equations, for which we give the stability result and some quasi-optimal error estimates. Moreover, the numerical experiments confirm both the theoretical analysis and the efficiency of the proposed method which produces a fast splitting solution to augmented Lagrangian or penalty problems, possibly used as a suitable preconditioner to the fully coupled system. [Copyright &y& Elsevier]
- Published
- 2012
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