Euler-Lagrange equations for variable-growth total variation

Abstract

We consider a class of integral functionals with Musielak-Orlicz type variable growth, possibly linear in some regions of the domain. This includes p(x) power-type integrands with p(x) 1 as well as double-phase p\!-\!q integrands with p=1. The main goal of this paper is to identify the L2-subdifferential of the functional, including a local characterisation in terms of a variant of the Anzellotti product defined through the Young's inequality. As an application, we obtain the Euler-Lagrange equation for the variant of the Rudin-Osher-Fatemi image denoising problem with variable growth regularising term.

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