The article begins by introducing the concept of ambit fields, which provide a flexible yet analytically tractable class of random field models. It emphasizes Ole Barndorff-Nielsen's contributions to the foundation and advancement of ambit stochastics, particularly his work on stochastic volatility and the role of metatimes.
The article then reviews statistical inference for stochastic volatility in three key settings: Brownian semistationary (BSS) processes in the semimartingale and non-semimartingale cases, as well as ambit processes in a spatio-temporal context. For each case, the article presents the corresponding limit theorems for realized variance and related power variation measures, highlighting the importance of appropriate scaling to achieve convergence.
Next, the article discusses the connections between ambit fields and stochastic partial differential equations (SPDEs), showing how ambit fields can be expressed as mild solutions of parabolic SPDEs. It then reviews recent advances in volatility estimation for infinite-dimensional settings, including the development of semigroup-adjusted realized covariation and multipower variation measures.
The article concludes by highlighting the applications of ambit fields, particularly in the context of turbulence modeling, and provides an outlook on the latest developments in ambit stochastics.
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by Fred Espen B... في arxiv.org 10-02-2024
https://arxiv.org/pdf/2410.00566.pdfاستفسارات أعمق