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Subspace electrode selection methodology for the reduction of the effect of uncertain conductivity values in the EEG dipole localization: a simulation study using a patient-specific head model

(2012) PHYSICS IN MEDICINE AND BIOLOGY. 57(7). p.1963-1986
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Ghent researchers on unfolded proteins in inflammatory disease (GROUP-ID)
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The integrative neuroscience of behavioral control (Neuroscience)
Keywords
SENSITIVITY, RECIPROCITY, IN-VIVO, FINITE-DIFFERENCE METHOD, TISSUE RESISTIVITIES, RAP-MUSIC, INVERSE PROBLEM, ANISOTROPY, BRAIN, SKULL

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Citation

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MLA
Crevecoeur, Guillaume, Victoria Eugenia Montes Restrepo, and Steven Staelens. “Subspace Electrode Selection Methodology for the Reduction of the Effect of Uncertain Conductivity Values in the EEG Dipole Localization: a Simulation Study Using a Patient-specific Head Model.” PHYSICS IN MEDICINE AND BIOLOGY 57.7 (2012): 1963–1986. Print.
APA
Crevecoeur, G., Montes Restrepo, V. E., & Staelens, S. (2012). Subspace electrode selection methodology for the reduction of the effect of uncertain conductivity values in the EEG dipole localization: a simulation study using a patient-specific head model. PHYSICS IN MEDICINE AND BIOLOGY, 57(7), 1963–1986.
Chicago author-date
Crevecoeur, Guillaume, Victoria Eugenia Montes Restrepo, and Steven Staelens. 2012. “Subspace Electrode Selection Methodology for the Reduction of the Effect of Uncertain Conductivity Values in the EEG Dipole Localization: a Simulation Study Using a Patient-specific Head Model.” Physics in Medicine and Biology 57 (7): 1963–1986.
Chicago author-date (all authors)
Crevecoeur, Guillaume, Victoria Eugenia Montes Restrepo, and Steven Staelens. 2012. “Subspace Electrode Selection Methodology for the Reduction of the Effect of Uncertain Conductivity Values in the EEG Dipole Localization: a Simulation Study Using a Patient-specific Head Model.” Physics in Medicine and Biology 57 (7): 1963–1986.
Vancouver
1.
Crevecoeur G, Montes Restrepo VE, Staelens S. Subspace electrode selection methodology for the reduction of the effect of uncertain conductivity values in the EEG dipole localization: a simulation study using a patient-specific head model. PHYSICS IN MEDICINE AND BIOLOGY. 2012;57(7):1963–86.
IEEE
[1]
G. Crevecoeur, V. E. Montes Restrepo, and S. Staelens, “Subspace electrode selection methodology for the reduction of the effect of uncertain conductivity values in the EEG dipole localization: a simulation study using a patient-specific head model,” PHYSICS IN MEDICINE AND BIOLOGY, vol. 57, no. 7, pp. 1963–1986, 2012.
@article{2116205,
  author       = {Crevecoeur, Guillaume and Montes Restrepo, Victoria Eugenia and Staelens, Steven},
  issn         = {0031-9155},
  journal      = {PHYSICS IN MEDICINE AND BIOLOGY},
  keywords     = {SENSITIVITY,RECIPROCITY,IN-VIVO,FINITE-DIFFERENCE METHOD,TISSUE RESISTIVITIES,RAP-MUSIC,INVERSE PROBLEM,ANISOTROPY,BRAIN,SKULL},
  language     = {eng},
  number       = {7},
  pages        = {1963--1986},
  title        = {Subspace electrode selection methodology for the reduction of the effect of uncertain conductivity values in the EEG dipole localization: a simulation study using a patient-specific head model},
  url          = {http://dx.doi.org/10.1088/0031-9155/57/7/1963},
  volume       = {57},
  year         = {2012},
}

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