Mathematics – Classical Analysis and ODEs
Scientific paper
2007-10-04
Mathematics
Classical Analysis and ODEs
Scientific paper
We investigate the time-asymptotic properties of solutions of the differential equation x''(t) + a(t)x'(t) + g(x(t)) = 0 in a Hilbert space, where a(.) is non-increasing and g is the gradient of a potential G. If the coefficient a(.) is constant and positive, we recover the so-called ``Heavy Ball with Friction'' system. On the other hand, when a(t)=1/(t+1) we obtain the trajectories associated to some averaged gradient system. Our analysis is mainly based on the existence of some suitable energy function. When the potential G is convex and the coeffient a is non-integrable at infinity, the energy function converges to its minimum. A more stringent condition is required to obtain the convergence of the trajectories of toward some minimum point of the potential. In the one-dimensional setting, a precise description of the convergence of solutions is given for a general coercive non-convex potentials with many local minima and maxima. We show that in this case the set of initial conditions for which solutions converge to a local minimum is open and dense.
Cabot Alexandre
Engler Hans
Gadat Sébastien
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