arXiv:1509.05598 Abstract | arXiv Analytics

arXiv:1509.05598 [math.OC]Abstract References Reviews Resources

Asymptotic for a second order evolution equation with convex potential and vanishing damping term

Published 2015-09-18Version 1

In this short note, we recover by a different method the new result due to Attouch, Peyrouqet and Redont concerning the weak convergence as $t\rightarrow+\infty$ of solutions $x(t)$ to the second order differential equation \[ x^{\prime\prime}(t)+\frac{K}{t}x^{\prime}(t)+\nabla\Phi(x(t))=0, \] where $K>3$ and $\Phi$ is a smooth convex function defined on an Hilbert Space $\mathcal{H}.$ Moreover, we improve slightly their result on the rate of convergence of $\Phi(x(t))-\min\Phi.$

Comments: 5 pages

Categories: math.OC

Keywords: second order evolution equation, vanishing damping term, convex potential, second order differential equation, asymptotic

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