| Optimal Nonlinear Prediction of Random Fields on Networks (2003) | |||||||||
Abstract | |||||||||
| It is increasingly common to encounter time-varying random fields on networks (metabolic networks, sensor arrays, distributed computing, etc.). This paper considers the problem of optimal, nonlinear prediction of these fields, showing from an information-theoretic perspective that it is formally identical to the problem of finding minimal local sufficient statistics. I derive general properties of these statistics, show that they can be composed into global predictors, and explore their recursive estimation properties. For the special case of discrete-valued fields, I describe a convergent algorithm to identify the local predictors from empirical data, with minimal prior information about the field, and no distributional assumptions.. Comment: 20 pages, 5 figures. For the conference "Discrete Models of Complex Systems" (Lyon, June, 2003). v2: Typos fixed, regenerated figures should now produce readable PDF output | |||||||||
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