线性运动硬化拟静态塑性的最优控制II:正则化与可微性

Pub Date : 2015-10-29 DOI:10.4171/ZAA/1546

G. Wachsmuth

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引用次数: 23

摘要

考虑一类由演化变分不等式支配的准静态塑性线性运动硬化的最优控制问题。导出了时间离散问题的正则化。正则化前向问题可以解释为一个耦合的拟线性偏微分方程系统，其主要部分依赖于状态梯度。我们证明了该拟线性系统解映射的fracimet可微性。因此，我们得到了一个一阶必要最优系统。此外，我们还讨论了正则化的某些收敛性质。

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Optimal Control of Quasistatic Plasticity with Linear Kinematic Hardening II: Regularization and Differentiability

We consider an optimal control problem governed by an evolution variational inequality arising in quasistatic plasticity with linear kinematic hardening. A regularization of the time-discrete problem is derived. The regularized forward problem can be interpreted as system of coupled quasilinear PDEs whose principal parts depend on the gradient of the state. We show the Fréchet differentiability of the solution map of this quasilinear system. As a consequence, we obtain a first order necessary optimality system. Moreover, we address certain convergence properties of the regularization.

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