Frames of iterations and vector-valued model spaces

Abstract

Let T be a bounded operator on a Hilbert space H, and F = fj: j in J an at most countable set of vectors in H. In this note, we characterize the pairs T, F such that Tn f: f in F, n in I form a frame of H, for the cases of I = N0 and I = Z. The characterization for unilateral iterations gives a similarity with the compression of the shift acting on model spaces of the Hardy space of analytic functions defined on the unit disk with values in $l2(J). This generalizes recent work for iterations of a single function. In the case of bilateral iterations, the characterization is by the bilateral shift acting on doubly invariant subspaces of L2(T,l2(J)). Furthermore, we characterize the frames of iterations for vector-valued model operators when J is finite in terms of Toeplitz and multiplication operators in the unilateral and bilateral case, respectively. Finally, we study the problem of finding the minimal number of orbits that produce a frame in this context.