Global universal approximation with Brownian signatures
Mihriban Ceylan and
David J. Pr\"omel
Papers from arXiv.org
Abstract:
We establish $L^p$-universal approximation theorems for general path-dependent and non-anticipative functionals on suitable rough path spaces, showing that linear functionals acting on signatures of time-extended rough paths are dense with respect to the $L^p$-distance. To that end, we derive global universal approximation theorems for weighted rough path spaces. We demonstrate that these $L^p$-universal approximation theorems apply to Gaussian processes, in particular, to fractional Brownian motion. As a consequence, linear functionals on the signature of the time-extended Brownian motion can approximate any $p$-integrable stochastic process adapted to the Brownian filtration, including solutions to stochastic differential equations.
Date: 2025-12, Revised 2026-07
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Persistent link: https://EconPapers.repec.org/RePEc:arx:papers:2512.16396
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