English

Infinite Shift-invariant Grouped Multi-task Learning for Gaussian Processes

Machine Learning 2015-03-20 v2 Instrumentation and Methods for Astrophysics Machine Learning

Abstract

Multi-task learning leverages shared information among data sets to improve the learning performance of individual tasks. The paper applies this framework for data where each task is a phase-shifted periodic time series. In particular, we develop a novel Bayesian nonparametric model capturing a mixture of Gaussian processes where each task is a sum of a group-specific function and a component capturing individual variation, in addition to each task being phase shifted. We develop an efficient \textsc{em} algorithm to learn the parameters of the model. As a special case we obtain the Gaussian mixture model and \textsc{em} algorithm for phased-shifted periodic time series. Furthermore, we extend the proposed model by using a Dirichlet Process prior and thereby leading to an infinite mixture model that is capable of doing automatic model selection. A Variational Bayesian approach is developed for inference in this model. Experiments in regression, classification and class discovery demonstrate the performance of the proposed models using both synthetic data and real-world time series data from astrophysics. Our methods are particularly useful when the time series are sparsely and non-synchronously sampled.

Keywords

Cite

@article{arxiv.1203.0970,
  title  = {Infinite Shift-invariant Grouped Multi-task Learning for Gaussian Processes},
  author = {Yuyang Wang and Roni Khardon and Pavlos Protopapas},
  journal= {arXiv preprint arXiv:1203.0970},
  year   = {2015}
}

Comments

This is an extended version of our ECML 2010 paper entitled "Shift-invariant Grouped Multi-task Learning for Gaussian Processes"; ECML PKDD'10 Proceedings of the 2010 European conference on Machine learning and knowledge discovery in databases: Part III

R2 v1 2026-06-21T20:29:13.628Z