Design as a Fusion Problem
Abstract
Statistical Mechanics has proven to be a useful model for drawing inferences about the collective behavior of individual objects that interact according to a known force law (which for a more general usage is referred to as interacting units.). Collective behavior is determined not by computing F = ma for each interacting unit because the problem is mathematically intractable. Instead, one computes the partition function for the collection of interacting units and predicts statistical behavior from the partition function. Statistical mechanics was unified with Bayesian inference by Jaynes who demonstrated that the partition function assignment of probabilities via the interaction Hamiltonian is the solution to a Bayesian assignment of probabilities based on the maximum entropy method with known means and standard deviations. Once this technique has been applied to a variety of problems and obtained a solution, one can, of course, solve the inverse problem to determine what interaction model gives rise to a given probability assignment. Probabilistic networks are important modeling tools in a variety of applications including social networks. We explore the usage of statistical mechanics as a mechanism to solve the inverse problem to determine the underlying interaction model that gives rise to the probabilistic network.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jul 01, 2008
- Accession Number
- ADA520494
Entities
People
- A. S. Smith-carroll
- John E. Gray
- Rabinder N. Madan
Organizations
- Naval Surface Warfare Center