We address the problem of identifying the neighborhood structure of an undirected graph, whose nodes are labeled with the elements of a multivariate normal (MVN) random vector. A semi-definite program is given for estimating the information matrix under arbitrary constraints on its elements. More importantly, a closed-form expression is given for the maximum likelihood (ML) estimator of the information matrix, under the constraint that the information matrix has pre-specified elements in a given pattern (e.g., in a principal submatrix). The results apply to the identification of dependency labels in a graphical model with neighborhood constraints. This neighborhood structure excludes nodes which are conditionally independent of a given node and the graph is determined by the non- zero elements in the information matrix for the random vector. A cross-validation principle is given for determining whether the constrained information matrix returned from this procedure is an acceptable model for the information matrix, and as a consequence for the neighborhood structure of the Markov Random Field (MRF) that is identified with the MVN random vector.

Creator

• Li, Nan

Contributors

• Paffenroth, Randy Clinton

Degree

• MS

Unit

• Mathematical Sciences

Publisher

• Worcester Polytechnic Institute

Language

• English

Identifier

• etd-012217-230654

Keyword

• Closed Form Solutions
• Convex Optimization
• Graphical Models
• Information Matrix

Advisor

• Paffenroth, Randy Clinton

Defense date

• 2017-01-22

Year

• 2017

Date created

• 2017-01-22

Resource type

• Thesis

Rights statement

• In Copyright

Last modified

• 2021-02-01