Complexity of gradient descent for multiobjective optimization

A number of first-order methods have been proposed for smooth multiobjective optimization for which some form of convergence to first order criticality has been proved. Such convergence is global in the sense of being independent of the starting point. In this paper we analyze the rate of convergence of gradient descent for smooth unconstrained multiobjective optimization, and we do it for non-convex, convex, and strongly convex vector functions. These global rates are shown to be the same as for gradient descent in single-objective optimization, and correspond to appropriate worst case complexity bounds. In the convex cases, the rates are given for implicit scalarizations of the problem vector function.

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J. Fliege, A. I. F. Vaz, and L. N. Vicente, Complexity of gradient descent for multiobjective optimization, preprint 18-12, Dept. Mathematics, Univ. Coimbra

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