MaxEnt elicited priors with Mathematica - derivation and use

Stokes, Barrie

Title: MaxEnt elicited priors with Mathematica - derivation and use
Creator: Stokes, Barrie
Relation: 35th International Workshop on Bayesian Inference and Maximum Entropy Methods in Science and Engineering (Maxent 2015). Proceedings of the 35th International Workshop on Bayesian Inference and Maximum Entropy Methods in Science and Engineering [presented in AIP Conference Proceedings, Vol. 1757] (Potsdam, NY 19-24 July, 2015)
Publisher Link: http://dx.doi.org/10.1063/1.4959047
Publisher: American Institute Physics (AIP)
Resource Type: conference paper
Date: 2016
Description: In two previous papers [Stokes 1, 2] a general method of obtaining univariate MaxEnt distributions was presented and applied. The approach involved solving a collection of Lagrange Multiplier equations for a set of ordinates associated with a set of regular abscissae, using the Mathematica function FindRoot. The method exploits the fact that Mathematica allows an InterpolationFunction to be fitted to a list of the form, say, {{0, ord₁}, {0.1, ord₂}, {0.2, ord₃}, … where the ordinates ord_i are symbolic. The resulting InterpolationFunction can be manipulated just like any conventionally defined function, so that means, variances, CDF values, or other quantities elicited from a domain expert can be expressed in terms of the ord_i. This paper presents an improved method for finding these MaxEnt distributions, and shows how the MaxEnt PDF can be expressed as a piecewise polynomial function, or a “one-piece” polynomial function using step-type basis functions. Some further Mathematica string manipulation can render such expressions in R [3] or BUGS [4] syntax for use, say, as a prior distribution in a Bayesian analysis.
Subject: MaxEnt distributions; <i>Mathematica</i>; Lagrange multiplier equations
Identifier: http://hdl.handle.net/1959.13/1326367
Identifier: uon:25414
Identifier: ISBN:9780753414150
Language: eng
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