Approximations in Besov Spaces and Jump Detection of Besov Functions with Bounded Variation

Abstract

In this paper, we provide a proof that functions belonging to Besov spaces Brq,∞(RN,Rd), q∈ [1,∞), r∈(0,1), satisfy the following formula under a certain condition: equation eq:main result in abstract ε 0+1|ε|[uε]qWr,q(RN,Rd)=Nε 0+∫RN1εN∫Bε(x)|u(x)-u(y)|q|x-y|rqdydx. equation Here, [·]Wr,q represents the Gagliardo seminorm, and uε denotes the convolution of u with a mollifier η(ε)(x):=1εNη(xε), η∈ W1,1(RN),∫RNη(z)dz=1. Furthermore, we prove that every function u in BV(RN,Rd) B1/pp,∞(RN,Rd),p∈(1,∞), satisfies multline ε 0+1|ε|[uε]qW1/q,q(RN,Rd)=Nε 0+∫RN1εN∫Bε(x)|u(x)-u(y)|q|x-y|dydx =(∫SN-1|z1|~dHN-1(z))∫Ju |u+(x)-u-(x)|q dHN-1(x), multline for every 1<q<p. Here u+,u- are the one-sided approximate limits of u along the jump set Ju.