Under appropriate conditions on Young's functions Φ1 and Φ2,we give necessary and sufficient conditions in order that weighted integral inequalities hold for Doob's maximal operator M on martingale Orlicz setting.When Φ1 = tp and Φ2 = tq,the inequalities revert to the ones of strong or weak(p,q)-type on martingale space.
We study some basic properties of weak Orlicz spaces and their applications to harmonic analysis.We first discuss the absolute continuity of the quasi-norm and its normality,then prove the boundedness of several maximal operators.We also establish a kind of Marcinkiewicz-type interpolation theorem between weak Orlicz spaces.As applications,the weak type analogues of several classical inequalities in harmonic analysis is obtained.
Abstract Let x = (xn)n≥1 be a martingale on a noncommutative probability space (М,τ) and (Wn)n≥1 a sequence of positive numbers such that Wn =∑^n_k=1 wk→∞ as n→∞. We prove that x = (Xn)n≥1 converges bilaterally almost uniformly (b.a.u.) if and only if the weighted average (σan(x))n≥1 of x converges b.a.u, to the same limit under some condition, where σn(x) is given by σn(x)=1/Wn ^n∑_k=1 wkxk,n=1,2,… Furthermore, we prove that x = (xn)n≥1 converges in Lp(М) if and only if (σ'n(x))n≥1 converges in Lp(М), where 1 ≤p 〈 ∞ .We also get a criterion of uniform integrability for a family in L1(М).
The generalized maximal operator .44 in martingale spaces is considered. For 1 〈 p ≤ q 〈 ∞, the authors give a necessary and sufficient condition on the pair (μ, v) for M to be a bounded operator from martingale space L^P(μ) into L^q(μ) or weak-L^q(μ), where μ is a measure on Ω × N and v a weight on Ω. Moreover, the similar inequalities for usual maximal operator are discussed.
Let x (xn)≥1 be a martingale on a noncommutative probability space n (M, r) and (wn)n≥1 a sequence of positive numbers such that Wn = ∑ k=1^n wk →∞ as n →∞ We prove that x = (x.)n≥1 converges in E(M) if and only if (σn(x)n≥1 converges in E(.hd), where E(A//) is a noncommutative rearrangement invariant Banach function space with the Fatou property and σn(x) is given by σn(x) = 1/Wn ∑k=1^n wkxk, n=1, 2, .If in addition, E(Ad) has absolutely continuous norm, then, (an(x))≥1 converges in E(.M) if and only if x = (Xn)n≥1 is uniformly integrable and its limit in measure topology x∞∈ E(M).
Let B be a Banach space, φ1, φ2 be two generalized convex φ-functions and φ1, φ2 the Young complementary functions of ψ1, ψ2 respectively with∫t t0ψ2(s)/sds≤ds≤c0ψ1(c0t)(t〉t0)for some constants co 〉 0 and to 〉 0, where ψ1 and ψ2 are the left-continuous derivative functions of ψ1 and ψ2, respectively. We claim that: (i) If B is isomorphic to a p-uniformly smooth space (or q-uniformly convex space, respectively), then there exists a constant c 〉 0 such that for any B-valued martingale f = (fn)n≥0,||f^*||φ1≤||S^(p)(f)||φ2(of||S^(q)(f)||φ1≤c||f^*||φ2,respectively),where f^* and S^(p) (f) are the maximal function and the p-variation function of f respectively; (ii) If B is a UMD space, Tvf is the martingale transform of f with respect to v = (Vn)z≥0 (V^* 〈 1), then ||(Tvf)^*||Ф1≤f^*||Ф2.
