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Perov's Contraction Principle and Dynamic Programming with Stochastic Discounting (2103.14173v2)
Published 25 Mar 2021 in econ.TH, math.FA, and math.OC
Abstract: This paper shows the usefulness of Perov's contraction principle, which generalizes Banach's contraction principle to a vector-valued metric, for studying dynamic programming problems in which the discount factor can be stochastic. The discounting condition $\beta<1$ is replaced by $\rho(B)<1$, where $B$ is an appropriate nonnegative matrix and $\rho$ denotes the spectral radius. Blackwell's sufficient condition is also generalized in this setting. Applications to asset pricing and optimal savings are discussed.