Most Iterations of Projections Converge

Abstract

Consider three closed linear subspaces C1, C2, and C3 of a Hilbert space H and the orthogonal projections P1, P2 and P3 onto them. Halperin showed that a point in C1 C2 C3 can be found by iteratively projecting any point x0 ∈ H onto all the sets in a periodic fashion. The limit point is then the projection of x0 onto C1 C2 C3. Nevertheless, a non-periodic projection order may lead to a non-convergent projection series, as shown by Kopeck\'a, M\"uller, and Paszkiewicz. This raises the question how many projection orders in \1,2,3\N are "well behaved" in the sense that they lead to a convergent projection series. Melo, da Cruz Neto, and de Brito provided a necessary and sufficient condition under which the projection series converges and showed that the "well behaved" projection orders form a large subset in the sense of having full product measure. We show that also from a topological viewpoint the set of "well behaved" projection orders is a large subset: it contains a dense Gδ subset with respect to the product topology. Furthermore, we analyze why the proof from the measure theoretic case cannot be directly adapted to the topological setting.

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