Journal
ANNALS OF PROBABILITY
Volume 36, Issue 4, Pages 1390-1420Publisher
INST MATHEMATICAL STATISTICS
DOI: 10.1214/07-AOP362
Keywords
large deviations; Brownian sheet; Freidlin-Wentzell LDP; stochastic partial differential equations; stochastic evolution equations; small noise asymptotics; infinite dimensional Brownian motion
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The large deviations analysis of solutions to stochastic differential equations and related processes is often based on approximation. The construction and justification of the approximations can be onerous, especially in the case where the process state is infinite dimensional. In this paper we show how such approximations can be avoided for a variety of infinite dimensional models driven by some form of Brownian noise. The approach is based on a variational representation for functionals of Brownian motion. Proofs of large deviations properties are reduced to demonstrating basic qualitative properties (existence, uniqueness and tightness) of certain perturbations of the original process.
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