On the Minimizing Property of a Second Order Dissipative System in Hilbert Spaces 论文

详细信息

发表期刊/会议

SIAM Journal on Control and Optimization

发表日期

2000-01-01

发表年份

2000

摘要

We study the asymptotic behavior at infinity of solutions of a second order evolution equation with linear damping and convex potential. The differential system is defined in a real Hilbert space. It is proved that if the potential is bounded frombelow, then the solution trajectories are minimizing for it and converge weakly towards a minimizer of $\Phi$ if one exists; this convergence is strong when $\Phi$ is even or when the optimal set has a nonempty interior. We introduce a second order proximal-like iterative algorithm for the minimization of a convex function. It is defined by an implicit discretization of the continuous evolution problem and is valid for any closed proper convex function. We find conditions on some parameters of the algorithm in order to have a convergence result similar to the continuous case.