English

Faster Functional Clustering via Gaussian Mixture Models

Computation 2017-02-14 v3

Abstract

Functional data analysis (FDA) is an important modern paradigm for handling infinite-dimensional data. An important task in FDA is model-based clustering, which organizes functional populations into groups via subpopulation structures. The most common approach for model-based clustering of functional data is via mixtures of linear mixed-effects models. The mixture of linear mixed-effects models (MLMM) approach requires a computationally intensive algorithm for estimation. We provide a novel Gaussian mixture model (GMM) characterization of the model-based clustering problem. We demonstrate that this GMM-based characterization allows for improved computational speeds over the MLMM approach when applied via available functions in the R programming environment. Theoretical considerations for the GMM approach are discussed. An example application to a dataset based upon calcium imaging in the larval zebrafish brain is provided as a demonstration of the effectiveness of the simpler GMM approach.

Keywords

Cite

@article{arxiv.1608.05481,
  title  = {Faster Functional Clustering via Gaussian Mixture Models},
  author = {Hien D Nguyen and Geoffrey J McLachlan and Jeremy F P Ullmann and Andrew L Janke},
  journal= {arXiv preprint arXiv:1608.05481},
  year   = {2017}
}
R2 v1 2026-06-22T15:23:57.652Z