... | ... | @@ -162,15 +162,15 @@ After computing the transfer matrix (computeEEGTransferMatrix), it is multiplied |
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## `setCoilsAndProjections(coils, projections)`
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The characteristics of the MEG sensors are passed. In DUNEuro, each coil is represented as a point location and an orientation, in which the magnetic field is evaluated. Higher order integration is not supported.
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### parameters:
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- **coils**
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- **coils: double (#coils x 3)**
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Positions of MEG coils
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- **projections**
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- **projections: double (#coils x 3)**
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Orientations in which the magnetic field is evaluated (orthogonally through the coil).
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### returns: -
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----
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## `solveMEGForward(eegSolution, config)`
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This function can be used to directly solve the linear system as opposed to using the transfer matrix approach which is typically useful for a small number of dipoles, e.g., for visualization purposes.
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This function can be used to directly solve the linear system as opposed to using the transfer matrix approach.
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### parameters:
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- **eegSolution**
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The forward solution of EEG previously computed using solveEEGForward (see above).
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