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María Josefa Cánovas, Juan Parra (University Miguel Hernández of Elche), María Jesús Gisbert (Department of Statistics, Universidad Carlos III de Madrid) and Diethard Klatte (Institut für Betriebswirtschaftslehre, Universität Zürich)

Abstract: In this paper, we use a geometrical approach to sharpen a lower bound given in [5] for the Lipschitz modulus of the optimal value of (finite) linear programs under tilt perturbations of the objective function. The key geometrical idea comes from orthogonally projecting general balls on linear subspaces. Our new lower bound provides a computable expression for the exact modulus (as far as it only depends on the nominal data) in two important cases: when the feasible set has extreme points and when we deal with the Euclidean norm. In these two cases, we are able to compute or estimate the global Lipschitz modulus of the optimal value function in different perturbations frameworks.