awsLocalSigma: 3D variance estimation
In aws: Adaptive Weights Smoothing
awsLocalSigma R Documentation
3D variance estimation
Description
Functions for 3D variance estimation. awsLocalSigma implements the
local adaptive variance estimation procedure introduced in Tabelow, Voss and Polzehl (2015).
awslinsd uses a parametric model for varianc/mesn dependence. Functions
AFLocalSigma and estGlobalSigma implement various proposals for local
and global variance estimates from Aja-Fernandez (2009, 2013) and a global variant of the
approach from Tabelow, Voss and Polzehl (2015).
Usage
awsLocalSigma(y, steps, mask, ncoils, vext = c(1, 1), lambda = 5,
minni = 2, hsig = 5, sigma = NULL, family = c("NCchi", "Gauss"),
verbose = FALSE, trace = FALSE, u = NULL)
awslinsd(y, hmax = NULL, hpre = NULL, h0 = NULL, mask = NULL,
ladjust = 1, wghts = NULL, varprop = 0.1, A0, A1)
AFLocalSigma(y, ncoils, level = NULL, mask = NULL, h = 2, hadj = 1,
vext = c(1, 1))
estGlobalSigma(y, mask = NULL, ncoils = 1, steps = 16, vext = c(1, 1),
lambda = 20, hinit = 2, hadj = 1, q = 0.25, level = NULL,
sequence = FALSE, method = c("awsVar", "awsMAD", "AFmodevn",
"AFmodem1chi", "AFbkm2chi", "AFbkm1chi"))
estimateSigmaCompl(magnitude, phase, mask, kstar = 20, kmin = 8, hsig = 5,
lambda = 12, verbose = TRUE)
Arguments
y
3D array of image intensities.
steps
number of steps in adapive weights smoothing, used to reveal the unerlying
mean structure.
mask
restrict computations to voxel in mask, if is.null(mask) all voxel are used.
In function estGlobalSigma mask should refer to background for method %in% c("modem1chi","bkm2chi","bkm1chi") and to voxel within the head for
method=="modevn".
ncoils
effective number of coils, or equivalently number of effective degrees of freedom of non-central chi distribution divided by 2.
vext
voxel extentions or relative voxel extensions
lambda
scale parameter in adaptive weights smoothing
minni
minimal bandwidth for calculating local variance estimates
hsig
bandwwidth for median filter
sigma
optional initial global variance estimate
family
type of distribution, either noncentral Chi ("NCchi") or Gaussian ("Gauss")
verbose
if verbose==TRUE density plots
and quantiles of local estimates of sigma are provided.
trace
if trace==TRUE intermediate results for each step are
returned in component tergs for all voxel in mask.
u
if verbose==TRUE an array of noncentrality paramters for
comparisons. Internal use for tests only
hmax
maximal bandwidth
hpre
minimal bandwidth
h0
bandwidth vector characterizing to spatial correlation as correlation induced
by convolution with a Gaussian kernel
ladjust
correction factor for lambda
wghts
relative voxel extensions
varprop
defines a lower bound for the estimated variance as varprop*mean(sigma2hat
A0
select voxel with A0 < theta < A1 to estimate parameters of the variance model
A1
select voxel with A0 < theta < A1 to estimate parameters of the variance model
level
threshold for mask definition
h
bandwidth for local variance estimates.
hinit
minimal bandwidth for local variance estimates with method="awsxxx".
hadj
bandwidth for mode estimation
q
Quantile for interquantile estimate of standard deviation
sequence
logical, return sequence of estimated variances for iterative methods.
method
determines variance estimation method
magnitude
magnitude of complex 3D image
phase
phase of complex 3D image
kstar
number of steps in adapive weights smoothing, used to reveal the unerlying
mean structure.
kmin
iteration to start adaptation
Value
all functions return lists with variance estimates in component sigma
Author(s)
J\"org Polzehl polzehl@wias-berlin.de
References
K. Tabelow, H.U. Voss, J. Polzehl, Local estimation of the noise level in MRI using
structural adaptation, Medical Image Analysis, 20 (2015), 76–86. DOI:10.1016/j.media.2014.10.008.
S. Aja-Fernandez, V. Brion, A. Tristan-Vega, Effective noise estimation and
filtering from correlated multiple-coil MR data. Magn Reson Imaging, 31 (2013), 272-285.
DOI:10.1016/j.mri.2012.07.006
S. Aja-Fernandez, A. Tristan-Vega, C. Alberola-Lopez, Noise estimation in
single- and multiple-coil magnetic resonance data based on statistical models.
Magn Reson Imaging, 27 (2009), 1397-1409. DOI:10.1016/j.mri.2009.05.025.
aws documentation built on Oct. 1, 2024, 1:08 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
| awsLocalSigma | R Documentation |
3D variance estimation
Description
Functions for 3D variance estimation. awsLocalSigma implements the
local adaptive variance estimation procedure introduced in Tabelow, Voss and Polzehl (2015).
awslinsd uses a parametric model for varianc/mesn dependence. Functions
AFLocalSigma and estGlobalSigma implement various proposals for local
and global variance estimates from Aja-Fernandez (2009, 2013) and a global variant of the
approach from Tabelow, Voss and Polzehl (2015).
Usage
awsLocalSigma(y, steps, mask, ncoils, vext = c(1, 1), lambda = 5,
minni = 2, hsig = 5, sigma = NULL, family = c("NCchi", "Gauss"),
verbose = FALSE, trace = FALSE, u = NULL)
awslinsd(y, hmax = NULL, hpre = NULL, h0 = NULL, mask = NULL,
ladjust = 1, wghts = NULL, varprop = 0.1, A0, A1)
AFLocalSigma(y, ncoils, level = NULL, mask = NULL, h = 2, hadj = 1,
vext = c(1, 1))
estGlobalSigma(y, mask = NULL, ncoils = 1, steps = 16, vext = c(1, 1),
lambda = 20, hinit = 2, hadj = 1, q = 0.25, level = NULL,
sequence = FALSE, method = c("awsVar", "awsMAD", "AFmodevn",
"AFmodem1chi", "AFbkm2chi", "AFbkm1chi"))
estimateSigmaCompl(magnitude, phase, mask, kstar = 20, kmin = 8, hsig = 5,
lambda = 12, verbose = TRUE)
Arguments
y |
3D array of image intensities. |
steps |
number of steps in adapive weights smoothing, used to reveal the unerlying mean structure. |
mask |
restrict computations to voxel in mask, if |
ncoils |
effective number of coils, or equivalently number of effective degrees of freedom of non-central chi distribution divided by 2. |
vext |
voxel extentions or relative voxel extensions |
lambda |
scale parameter in adaptive weights smoothing |
minni |
minimal bandwidth for calculating local variance estimates |
hsig |
bandwwidth for median filter |
sigma |
optional initial global variance estimate |
family |
type of distribution, either noncentral Chi ("NCchi") or Gaussian ("Gauss") |
verbose |
if |
trace |
if |
u |
if |
hmax |
maximal bandwidth |
hpre |
minimal bandwidth |
h0 |
bandwidth vector characterizing to spatial correlation as correlation induced by convolution with a Gaussian kernel |
ladjust |
correction factor for lambda |
wghts |
relative voxel extensions |
varprop |
defines a lower bound for the estimated variance as |
A0 |
select voxel with |
A1 |
select voxel with |
level |
threshold for mask definition |
h |
bandwidth for local variance estimates. |
hinit |
minimal bandwidth for local variance estimates with |
hadj |
bandwidth for mode estimation |
q |
Quantile for interquantile estimate of standard deviation |
sequence |
logical, return sequence of estimated variances for iterative methods. |
method |
determines variance estimation method |
magnitude |
magnitude of complex 3D image |
phase |
phase of complex 3D image |
kstar |
number of steps in adapive weights smoothing, used to reveal the unerlying mean structure. |
kmin |
iteration to start adaptation |
Value
all functions return lists with variance estimates in component sigma
Author(s)
J\"org Polzehl polzehl@wias-berlin.de
References
K. Tabelow, H.U. Voss, J. Polzehl, Local estimation of the noise level in MRI using structural adaptation, Medical Image Analysis, 20 (2015), 76–86. DOI:10.1016/j.media.2014.10.008.
S. Aja-Fernandez, V. Brion, A. Tristan-Vega, Effective noise estimation and filtering from correlated multiple-coil MR data. Magn Reson Imaging, 31 (2013), 272-285. DOI:10.1016/j.mri.2012.07.006
S. Aja-Fernandez, A. Tristan-Vega, C. Alberola-Lopez, Noise estimation in single- and multiple-coil magnetic resonance data based on statistical models. Magn Reson Imaging, 27 (2009), 1397-1409. DOI:10.1016/j.mri.2009.05.025.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.