Estimating Vector Fields Using Sparse Basis Field Expansions

Stefan Haufe, Vadim V. Nikulin, Andreas Ziehe, Klaus-Robert Müller, Guido Nolte

NeurIPS 2008 pp. 617-624

/neurips/2008/haufe2008neurips-estimating/

Abstract

We introduce a novel framework for estimating vector fields using sparse basis field expansions (S-FLEX). The notion of basis fields, which are an extension of scalar basis functions, arises naturally in our framework from a rotational invariance requirement. We consider a regression setting as well as inverse problems. All variants discussed lead to second-order cone programming formulations. While our framework is generally applicable to any type of vector field, we focus in this paper on applying it to solving the EEG/MEG inverse problem. It is shown that significantly more precise and neurophysiologically more plausible location and shape estimates of cerebral current sources from EEG/MEG measurements become possible with our method when comparing to the state-of-the-art.

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Cite

Text

Haufe et al. "Estimating Vector Fields Using Sparse Basis Field Expansions." Neural Information Processing Systems, 2008.

Markdown

[Haufe et al. "Estimating Vector Fields Using Sparse Basis Field Expansions." Neural Information Processing Systems, 2008.](https://mlanthology.org/neurips/2008/haufe2008neurips-estimating/)

BibTeX

@inproceedings{haufe2008neurips-estimating,
  title     = {{Estimating Vector Fields Using Sparse Basis Field Expansions}},
  author    = {Haufe, Stefan and Nikulin, Vadim V. and Ziehe, Andreas and Müller, Klaus-Robert and Nolte, Guido},
  booktitle = {Neural Information Processing Systems},
  year      = {2008},
  pages     = {617-624},
  url       = {https://mlanthology.org/neurips/2008/haufe2008neurips-estimating/}
}