Rate of convergence under weak contractiveness conditions

We introduce a new class of selfmaps T of metric spaces, which generalizes the weakly Zamfirescu maps (and therefore weakly contraction maps, weakly Kannan maps, weakly Chatterjea maps and quasi-contraction maps with constant h < 1 / 2). We give an explicit Cauchy rate for the Picard iteration sequences {T nx0}n∈N for this type of maps, and show that if the space is complete, then all Picard iteration sequences converge to the unique fixed point of T. Our Cauchy rate depends on the space (X, d), the map T, and the starting point x0 ∈ X only through an upper bound b ≥ d(x0, T x0) and certain moduli θ, µ for the map, but is otherwise fully uniform. As a step on the way to proving our fixed point result we also calculate a modulus of uniqueness for this type of maps.

Dirección General de Enseñanza Superior

Research Council of Norway

Junta de Andalucía

Country

Spain

Related Organizations

University of Seville
Spain

Keywords

Cauchy rate, Fixed points, Modulus of uniqueness, Weakly contractive maps, Wweakly Zamfirescu maps, Rate of convergence, Quasi-contraction maps

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