Numerical analysis of a family of optimal distributed control problems governed by an elliptic variational inequality
For researchers in numerical analysis and optimal control, this work offers rigorous convergence guarantees for a class of problems, but the results are incremental extensions of known techniques.
This paper provides a numerical analysis of optimal control problems governed by elliptic variational inequalities using finite element methods, establishing convergence results as the mesh size h→0 and the parameter α→∞, including double convergence when (h,α)→(0,∞).
The numerical analysis of a family of distributed mixed optimal control problems governed by elliptic variational inequalities (with parameter $α>0$) is obtained through the finite element method when its parameter $h\rightarrow 0$. We also obtain the limit of the discrete optimal control and the associated state system solutions when $α\rightarrow \infty$ (for each $h>0$) and a commutative diagram for two continuous and two discrete optimal control and its associated state system solutions is obtained when $h\rightarrow 0$ and $α\rightarrow \infty$. Moreover, the double convergence is also obtained when $(h, α)\rightarrow(0, \infty)$.