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Paper detail

Linear filtering with fractional noises: large time and small noise asymptotics

The classical state-space approach to optimal estimation of stochastic processes is efficient when the driving noises are generated by martingales. In particular, the weight function of the optimal linear filter, which solves a complicated operator equation in general, simplifies to the Riccati ordinary differential equation in the martingale case. This reduction lies in the foundations of the Kalman-Bucy approach to linear optimal filtering. In this paper we consider a basic Kalman-Bucy model with noises, generated by independent fractional Brownian motions, and develop a new method of asymptotic analysis of the integro-differential filtering equation arising in this case. We establish existence of the steady-state error limit and find its asymptotic scaling in the high signal-to-noise regime. Closed form expressions are derived in a number of important cases.

preprint2022arXivOpen access
D. AftermanP. ChiganskyM. KleptsynaD. Marushkevych
math.OCmath.PR
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D. AftermanP. ChiganskyM. KleptsynaD. Marushkevych

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