The hardware and bandwidth for this mirror is donated by METANET, the Webhosting and Full Service-Cloud Provider.
If you wish to report a bug, or if you are interested in having us mirror your free-software or open-source project, please feel free to contact us at mirror[@]metanet.ch.
Bayesian Spatial Blind Source Separation via Thresholded Gaussian Process.
Install the released version of BSPBSS from Github with:
::install_github("benwu233/BSPBSS") devtools
This is a basic example which shows you how to solve a common problem.
First we load the package and generate simulated images with a probabilistic ICA model:
library(BSPBSS)
set.seed(612)
= sim_2Dimage(length = 30, sigma = 5e-4, n = 30, smooth = 6) sim
The true source signals are three 2D geometric patterns (set
smooth=0
to generate patterns with sharp edges).
levelplot2D(sim$S,lim = c(-0.04,0.04), sim$coords)
which generate observed images such as
levelplot2D(sim$X[1:3,], lim = c(-0.12,0.12), sim$coords)
Then we generate initial values for mcmc,
= init_bspbss(sim$X, sim$coords, q = 3, ker_par = c(0.1,50), num_eigen = 50) ini
and run!
= mcmc_bspbss(ini$X,ini$init,ini$prior,ini$kernel,n.iter=2000,n.burn_in=1000,thin=10,show_step=1000)
res #> iter 1000 Sat Oct 1 22:12:33 2022
#>
#> stepsize_zeta 0.0167947 accp_rate_zeta 0.34
#> iter 2000 Sat Oct 1 22:12:36 2022
#>
#> stepsize_zeta 0.0167947 accp_rate_zeta 0.37
Then the results can be summarized by
= sum_mcmc_bspbss(res, ini$X, ini$kernel, start = 101, end = 200, select_p = 0.5) res_sum
and shown by
levelplot2D(res_sum$S, lim = c(-1.3,1.3), sim$coords)
For comparison, we show the estimated sources provided by informax ICA here.
levelplot2D(ini$init$ICA_S, lim = c(-1.7,1.7), sim$coords)
We may overspecify the number of components and still obtain reasonable results.
= init_bspbss(sim$X, sim$coords, q = 5, ker_par = c(0.1,50), num_eigen = 50)
ini = mcmc_bspbss(ini$X,ini$init,ini$prior,ini$kernel, n.iter=2000,n.burn_in=1000,thin=10,show_step=1000)
res #> iter 1000 Sat Oct 1 22:12:40 2022
#>
#> stepsize_zeta 0.0104649 accp_rate_zeta 0.35
#> iter 2000 Sat Oct 1 22:12:43 2022
#>
#> stepsize_zeta 0.0104649 accp_rate_zeta 0.43
= sum_mcmc_bspbss(res, ini$X, ini$kernel, start = 101, end = 200, select_p = 0.5)
res_sum levelplot2D(res_sum$S, lim = c(-1.3,1.3), sim$coords)
Install a small pack contains simulated NIfTI images and MNI152 template.
::install_github("benwu233/SIMDATA") devtools
Load and take a glance at the data.
= system.file("extdata",package="SIMDATA")
data_path = neurobase::readNIfTI2(paste0(data_path,"/template/MNI152_T1_3mm.nii.gz"))
t1_3mm = neurobase::readNIfTI2(paste0(data_path,"/sim_4d/sim_4d.nii.gz"))
sim_4d = neurobase::readNIfTI2(paste0(data_path,"/sim_4d/mask.nii.gz"))
mask ::ortho2(t1_3mm, y=sim_4d[,,,1]) neurobase
Conduct BSPBSS.
= pre_nii(sim_4d,mask)
X = init_bspbss(X$data, X$coords, dens = 0.5, q = 3, ker_par = c(0.01, 120), num_eigen = 200)
ini = mcmc_bspbss(ini$X,ini$init,ini$prior,ini$kernel,n.iter=3000,n.burn_in=2000,thin=10,show_step=1000,subsample_p=0.005)
res #> iter 1000 Sat Oct 1 22:14:38 2022
#>
#> stepsize_zeta 0.00296575 accp_rate_zeta 0.42
#> iter 2000 Sat Oct 1 22:16:28 2022
#>
#> stepsize_zeta 0.00769239 accp_rate_zeta 0.42
#> iter 3000 Sat Oct 1 22:18:19 2022
#>
#> stepsize_zeta 0.00769239 accp_rate_zeta 0.41
= sum_mcmc_bspbss(res, ini$X, ini$kernel, start = 201, end = 300, select_p = 0.5) res_sum
Output:
= output_nii(res_sum$S,sim_4d,X$coords,file=NULL,std=TRUE) ICs
Component 1:
::ortho2(t1_3mm,y=ICs[,,,1]) neurobase
Component 2:
::ortho2(t1_3mm,y=ICs[,,,2]) neurobase
Component 3:
::ortho2(t1_3mm,y=ICs[,,,3]) neurobase
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.