y3_EC.3D: Expected Euler Characteristic for a 3D Random Field
In MixfMRI: Mixture fMRI Clustering Analysis
EC.3D R Documentation
Expected Euler Characteristic for a 3D Random Field
Description
Calculates the Expected Euler Characteristic for a 3D
Random Field thesholded a level u.
Usage
EC.3D(u, sigma, voxdim = c(1, 1, 1), num.vox, type = c("Normal", "t"), df = NULL)
Arguments
u
The threshold for the field.
sigma
The spatial covariance matrix of the field.
voxdim
The dimensions of the cuboid 'voxels' upon which the
discretized field is observed.
num.vox
The number of voxels that make up the field.
type
The marginal distribution of the Random Field (only Normal
and t at present).
df
The degrees of freedom of the t field.
Details
The Euler Characteristic \chi_u (Adler, 1981) is a
topological measure that essentially counts the number of isolated
regions of the random field above the threshold u minus the
number of 'holes'. As u increases the holes disappear and
\chi_u counts the number of local maxima. So when u
becomes close to the maximum of the random field
Z_{\textrm{max}} we have that
P( \textrm{reject} H_0 | H_0 \textrm{true}) =
P(Z_{\textrm{max}}) = P(\chi_u > 0) \approx E(\chi_u)
where H_0 is the null hypothesis that there is no signicant
positive actiavtion/signal present in the field. Thus the Type I error
of the test can be controlled through knowledge of the Expected Euler characteristic.
Note: This function is directly copied from "AnalyzeFMRI".
Value
The value of the expected Euler Characteristic.
Author(s)
J. L. Marchini
References
Adler, R. (1981) The Geometry of Random Fields.. New York: Wiley.
Worlsey, K. J. (1994) Local maxima and the expected euler
characteristic of excursion sets of \chi^2, f and t
fields. Advances in Applied Probability, 26, 13-42.
See Also
Threshold.RF
Examples
EC.3D(4.6, sigma = diag(1, 3), voxdim = c(1, 1, 1), num.vox = 10000)
EC.3D(4.6, sigma = diag(1, 3), voxdim = c(1, 1, 1), num.vox = 10000, type = "t", df = 100)
MixfMRI documentation built on Sept. 8, 2023, 5:06 p.m.
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| EC.3D | R Documentation |
Expected Euler Characteristic for a 3D Random Field
Description
Calculates the Expected Euler Characteristic for a 3D Random Field thesholded a level u.
Usage
EC.3D(u, sigma, voxdim = c(1, 1, 1), num.vox, type = c("Normal", "t"), df = NULL)
Arguments
u |
The threshold for the field. |
sigma |
The spatial covariance matrix of the field. |
voxdim |
The dimensions of the cuboid 'voxels' upon which the discretized field is observed. |
num.vox |
The number of voxels that make up the field. |
type |
The marginal distribution of the Random Field (only Normal and t at present). |
df |
The degrees of freedom of the t field. |
Details
The Euler Characteristic \chi_u (Adler, 1981) is a
topological measure that essentially counts the number of isolated
regions of the random field above the threshold u minus the
number of 'holes'. As u increases the holes disappear and
\chi_u counts the number of local maxima. So when u
becomes close to the maximum of the random field
Z_{\textrm{max}} we have that
P( \textrm{reject} H_0 | H_0 \textrm{true}) =
P(Z_{\textrm{max}}) = P(\chi_u > 0) \approx E(\chi_u)
where H_0 is the null hypothesis that there is no signicant
positive actiavtion/signal present in the field. Thus the Type I error
of the test can be controlled through knowledge of the Expected Euler characteristic.
Note: This function is directly copied from "AnalyzeFMRI".
Value
The value of the expected Euler Characteristic.
Author(s)
J. L. Marchini
References
Adler, R. (1981) The Geometry of Random Fields.. New York: Wiley.
Worlsey, K. J. (1994) Local maxima and the expected euler
characteristic of excursion sets of \chi^2, f and t
fields. Advances in Applied Probability, 26, 13-42.
See Also
Threshold.RF
Examples
EC.3D(4.6, sigma = diag(1, 3), voxdim = c(1, 1, 1), num.vox = 10000)
EC.3D(4.6, sigma = diag(1, 3), voxdim = c(1, 1, 1), num.vox = 10000, type = "t", df = 100)
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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