Computing Inverse MEG Signals in the Brain

Computing Inverse MEG Signals in the Brain
J. Mikael Eklund, Ruzena Bajcsy, Jonathan Sprinkle, Gregory V. Simpson

Citation
J. Mikael Eklund, Ruzena Bajcsy, Jonathan Sprinkle, Gregory V. Simpson. "Computing Inverse MEG Signals in the Brain". 2005 IEEE Computational Systems Bioinformatics Conference, Controlling Complexity, 332-335, August, 2005.

Abstract
This paper deals with the complexity of the inverse computation of brain currents from magnetoencephalography (MEG) signals. MEG measures the magnetic field outside the head: in effect, the resultant field from the flow of current inside the brain. We describe our current techniques to perform this inverse computation (called source estimation in much of the literature), which provides a view of brain activity that is less sensitive to disturbances which affect other kinds of brain activity measurements, though much more expensive to record.

Electronic downloads

http://ieeexplore.ieee.org/iel5/10336/32899/01540637.pdf?tp=&arnumber=1540637&isnumber=32899

Citation formats

HTML

J. Mikael Eklund, Ruzena Bajcsy, Jonathan Sprinkle, Gregory
V. Simpson. <a
href="http://chess.eecs.berkeley.edu/pubs/70.html"
>Computing Inverse MEG Signals in the Brain</a>,
2005 IEEE Computational Systems Bioinformatics Conference,
Controlling Complexity, 332-335, August, 2005.

Plain text

J. Mikael Eklund, Ruzena Bajcsy, Jonathan Sprinkle, Gregory
V. Simpson. "Computing Inverse MEG Signals in the
Brain". 2005 IEEE Computational Systems Bioinformatics
Conference, Controlling Complexity, 332-335, August, 2005.

BibTeX

@inproceedings{EklundBajcsySprinkleSimpson05_ComputingInverseMEGSignalsInBrain,
    author = {J. Mikael Eklund and Ruzena Bajcsy and Jonathan
              Sprinkle and Gregory V. Simpson},
    title = {Computing Inverse MEG Signals in the Brain},
    booktitle = {2005 IEEE Computational Systems Bioinformatics
              Conference, Controlling Complexity},
    pages = {332-335},
    month = {August},
    year = {2005},
    abstract = {This paper deals with the complexity of the
              inverse computation of brain currents from
              magnetoencephalography (MEG) signals. MEG measures
              the magnetic field outside the head: in effect,
              the resultant field from the flow of current
              inside the brain. We describe our current
              techniques to perform this inverse computation
              (called source estimation in much of the
              literature), which provides a view of brain
              activity that is less sensitive to disturbances
              which affect other kinds of brain activity
              measurements, though much more expensive to record.},
    URL = {http://chess.eecs.berkeley.edu/pubs/70.html}
}

Posted by Jonathan Sprinkle on 9 May 2006.
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