Convergence rates for an inertial algorithm of gradient type associated to a smooth nonconvex minimization

Abstract

We investigate an inertial algorithm of gradient type in connection with the minimization of a nonconvex differentiable function. The algorithm is formulated in the spirit of Nesterov's accelerated convex gradient method. We show that the generated sequences converge to a critical point of the objective function, if a regularization of the objective function satisfies the Kurdyka-ojasiewicz property. Further, we provide convergence rates for the generated sequences and the function values formulated in terms of the ojasiewicz exponent.