Optimal discrete approximations for continuos outcomes with applications in decision and risk analysis

In decision and risk analysis, it is common to use discrete probability distributions to approximate uncertain events with continuous outcomes. This paper discusses how these approximations may be selected. A class of approximations based on a modification to Taguchi’s work on tolerance analysis is shown to be optimal under assumptions of independent uncertainties with normally distributed outcomes. The approximation procedure is shown to be robust in many other situations and is extremely easy to use in practice. The authors also show how the approximation may be integrated into the process of subjective probability estimation by a ‘subject-matter expert’.