On the Approximate Weak Chebyshev Greedy Algorithm in uniformly smooth Banach spaces

Abstract

We study greedy approximation in uniformly smooth Banach spaces. The Weak Chebyshev Greedy Algorithm (WCGA), introduced and studied in [6], is defined for any Banach space X and a dictionary D, and provides nonlinear n-term approximation with respect to D. In this paper we study the Approximate Weak Chebyshev Greedy Algorithm (AWCGA) – a modification of the WCGA that was studied in [7]. In the AWCGA we are allowed to calculate n-term approximation with a perturbation in computing the norming functional and a relative error in calculating the approximant. Such permission is natural for the numerical applications and simplifies realization of the algorithm. We obtain conditions that are necessary and sufficient for the convergence of the AWCGA for any element of X. In particular, we show that if perturbations and errors are from ℓ1 space then the conditions for the convergence of the AWCGA are the same as for the WCGA. For specifically chosen perturbations and errors we estimate the rate of convergence for any element f from the closure of the convex hull of D and demonstrate that in special cases the AWCGA performs as well as the WCGA.