Pablo Linares, Felix Otto, Markus Tempelmayr, Pavlos Tsatsoulis
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引用次数: 0
Abstract
In this paper, we explore the version of Hairer’s regularity structures based on a greedier index set than trees, as introduced in (Otto et al. in A priori bounds for quasi-linear SPDEs in the full sub-critical regime, 2021, arXiv:2103.11039) and algebraically characterized in (Linares et al. in Comm. Am. Math. Soc. 3:1–64, 2023). More precisely, we construct and stochastically estimate the renormalized model postulated in (Otto et al. in A priori bounds for quasi-linear SPDEs in the full sub-critical regime, 2021, arXiv:2103.11039), avoiding the use of Feynman diagrams but still in a fully automated, i. e. inductive way. This is carried out for a class of quasi-linear parabolic PDEs driven by noise in the full singular but renormalizable range. We assume a spectral gap inequality on the (not necessarily Gaussian) noise ensemble. The resulting control on the variance of the model naturally complements its vanishing expectation arising from the BPHZ-choice of renormalization. We capture the gain in regularity on the level of the Malliavin derivative of the model by describing it as a modelled distribution. Symmetry is an important guiding principle and built-in on the level of the renormalization Ansatz. Our approach is analytic and top-down rather than combinatorial and bottom-up.
在本文中,我们探索了基于比树更贪婪的索引集的海勒正则结构版本,该版本在(Otto et al. in A priori bounds for quasi-linear SPDEs in the full sub-critical regime, 2021, arXiv:2103.11039)中引入,并在(Linares et al. in Comm. Am. Math. Soc. 3:1-64, 2023)中进行了代数描述。更确切地说,我们构建并随机估计了(Otto 等人,载于《全次临界体制中准线性 SPDE 的先验边界》,2021 年,arXiv:2103.11039)中假设的重规范化模型,避免使用费曼图,但仍采用全自动即归纳的方式。该方法适用于一类在全奇异但可重正态化范围内由噪声驱动的准线性抛物 PDE。我们假定(不一定是高斯)噪声集合的谱间隙不等式。由此产生的对模型方差的控制,自然补充了重正化的 BPHZ 选择所产生的消失期望。我们通过将其描述为模型分布来捕捉模型在马利亚文导数层面上的规律性增益。对称性是一个重要的指导原则,也是重正化解析的内在要求。我们的方法是分析性的、自上而下的,而不是组合性的、自下而上的。
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