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Neural Computation

April 1, 1998, Vol. 10, No. 3, Pages 731-747
(doi: 10.1162/089976698300017728)
© 1998 Massachusetts Institute of Technology
Nonlinear Time-Series Prediction with Missing and Noisy Data
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We derive solutions for the problem of missing and noisy data in nonlinear time-series prediction from a probabilistic point of view. We discuss different approximations to the solutions—in particular, approximations that require either stochastic simulation or the substitution of a single estimate for the missing data. We show experimentally that commonly used heuristics can lead to suboptimal solutions. We show how error bars for the predictions can be derived and how our results can be applied to K-step prediction. We verify our solutions using two chaotic time series and the sunspot data set. In particular, we show that for K-step prediction, stochastic simulation is superior to simply iterating the predictor.