Solution manifolds of differential systems with discrete state-dependent delays are almost graphs
Abstract
We show that for a system x'(t)=g(x(t-d1(Lxt)),…,x(t-dk(Lxt))) of n differential equations with k discrete state-dependent delays the solution manifold, on which solution operators are differentiable, is nearly as simple as a graph over a closed subspace in C1([-r,0],Rn). The map L is continuous and linear from C([-r,0],Rn) onto a finite-dimensional vectorspace, and g as well as the delay functions d are assumed to be continuously differentiable.
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