Sobolev boundedness and continuity for commutators of the local Hardy–Littlewood maximal function

Abstract: Let \(\Omega\) be a subdomain in \(\mathbb{R}^n\) and \(M_\Omega\) be the local Hardy-Littlewood maximal function. In this paper, we show that both the commutator and the maximal commutator of \(M_\Omega\) are bounded and continuous from the first order Sobolev spaces \(W^{1,p_1}(\Omega)\) to \(W^{1,p}(\Omega)\) provided that \(b\in W^{1,p_2}(\Omega)\), \(1<p_1,p_2,p<\infty\) and \(1/p=1/p_1+1/p_2\). These are done by establishing several new pointwise estimates for the weak derivatives of the above comm… Show more

“…where dH n−1 denotes the normalized (n-1)-dimensional Hausdorff measure, |∂B(x, r)| = n̟ n r n−1 , and ̟ n is the volume of the unit ball on R n . The further development about the regularity of maximal operators, we can see [2,5,12,13,14,15,17,18,21] and so on.…”

Regularity for a class of local fractional new maximal operators

“…where dH n−1 denotes the normalized (n-1)-dimensional Hausdorff measure, |∂B(x, r)| = n̟ n r n−1 , and ̟ n is the volume of the unit ball on R n . The further development about the regularity of maximal operators, we can see [2,5,12,13,14,15,17,18,21] and so on.…”

Regularity for a class of local fractional new maximal operators

Pointwise Gradient Estimates and Sobolev Boundedness for Commutators of Fractional New Maximal Operators

Continuity and regularity for local multi-fractional new maximal operators