Tree-Based Modeling and Estimation of Gaussian Processes on Graphs with Cycles

Part of Advances in Neural Information Processing Systems 13 (NIPS 2000)

Bibtex Metadata Paper


Martin J. Wainwright, Erik Sudderth, Alan Willsky


We present the embedded trees algorithm, an iterative technique for estimation of Gaussian processes defined on arbitrary graphs. By exactly solving a series of modified problems on embedded span(cid:173) ning trees, it computes the conditional means with an efficiency comparable to or better than other techniques. Unlike other meth(cid:173) ods, the embedded trees algorithm also computes exact error co(cid:173) variances. The error covariance computation is most efficient for graphs in which removing a small number of edges reveals an em(cid:173) bedded tree. In this context, we demonstrate that sparse loopy graphs can provide a significant increase in modeling power rela(cid:173) tive to trees, with only a minor increase in estimation complexity.