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Lab05

From ACL@NCU

Revision as of 00:47, 19 November 2014 by Aclexp (talk | contribs) (→‎Single Subject General Linear Model (GLM))
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Downloads

Dataset and scripts (type "tar xvf Lab05data.tar.gz" to extract)

Linux

  1. create symbolic link to a path
ln -s <destination> <symbolic link>
For example, typing the following command in your home directory (~):
ln -s /media/DATA2/guests/public/Lab05 fmric
Create a symbolic link "fmric" pointing to "/media/DATA2/guests/public/Lab05" (assuming it exists). Thus, under your home directory, type:
cd fmric

you will be in "~/fmric", where all the contents of /media/DATA2/guests/public/Lab05 can be accessed.

  • Note: Deleting the symbolic link won't remove the contents of its destination.
  1. Loop with tcsh
foreach <variable> (<list items>)

<your command>

end

The statements above will iterate <your command> for the length of your list items.

Example:

#!/usr/bin/tcsh

foreach run (1 2 3)

   echo $run

end

Single Subject General Linear Model (GLM)

  • Analysis of 1 run (ana01)
3dDeconvolve -input pb03.FT_epi_r1.scale+orig.HEAD         	         \
	-polort 3                                                        \
	-num_stimts 2                                                    \
	-stim_times 1 stimuli/AV1_vis_1run.txt 'BLOCK(20,1)'             \
	-stim_label 1 Vrel                                               \
	-stim_times 2 stimuli/AV2_aud_1run.txt 'BLOCK(20,1)'             \
	-stim_label 2 Arel                                               \
	-gltsym 'SYM: Vrel -Arel'                                        \
	-glt_label 1 V-A                                                 \
	-fout -tout -x1D X.xmat.1D -xjpeg X.jpg                          \
	-fitts fitts.FT                                       		 \
	-errts errts.FT                                             	 \
	-bucket stats.FT
  • Analysis of 1 run with motion parameters (ana02)
3dDeconvolve -input pb03.FT_epi_r1.scale+orig.HEAD          	         \
	-polort 3                                                        \
	-num_stimts 8                                                    \
	-stim_times 1 stimuli/AV1_vis_1run.txt 'BLOCK(20,1)'             \
	-stim_label 1 Vrel                                               \
	-stim_times 2 stimuli/AV2_aud_1run.txt 'BLOCK(20,1)'             \
	-stim_label 2 Arel                                               \
	-stim_file 3 dfile.rall.1D'[0]' -stim_base 3 -stim_label 3 roll  \
	-stim_file 4 dfile.rall.1D'[1]' -stim_base 4 -stim_label 4 pitch \
	-stim_file 5 dfile.rall.1D'[2]' -stim_base 5 -stim_label 5 yaw   \
	-stim_file 6 dfile.rall.1D'[3]' -stim_base 6 -stim_label 6 dS    \
	-stim_file 7 dfile.rall.1D'[4]' -stim_base 7 -stim_label 7 dL    \
	-stim_file 8 dfile.rall.1D'[5]' -stim_base 8 -stim_label 8 dP    \
	-gltsym 'SYM: Vrel -Arel'                                        \
	-glt_label 1 V-A                                                 \
	-fout -tout -x1D X.xmat.1D -xjpeg X.jpg                          \
	-fitts fitts.FT                                               	 \
	-errts errts.FT                                               	 \
	-bucket stats.FT

  • analysis of 3 runs with motion parameters
3dDeconvolve -input pb03.FT_epi_r?.scale+orig.HEAD          	         \
	-polort 3                                                        \
	-num_stimts 8                                                    \
	-stim_times 1 stimuli/AV1_vis.txt 'BLOCK(20,1)'                  \
	-stim_label 1 Vrel                                               \
	-stim_times 2 stimuli/AV2_aud.txt 'BLOCK(20,1)'                  \
	-stim_label 2 Arel                                               \
	-stim_file 3 dfile.rall.1D'[0]' -stim_base 3 -stim_label 3 roll  \
	-stim_file 4 dfile.rall.1D'[1]' -stim_base 4 -stim_label 4 pitch \
	-stim_file 5 dfile.rall.1D'[2]' -stim_base 5 -stim_label 5 yaw   \
	-stim_file 6 dfile.rall.1D'[3]' -stim_base 6 -stim_label 6 dS    \
	-stim_file 7 dfile.rall.1D'[4]' -stim_base 7 -stim_label 7 dL    \
	-stim_file 8 dfile.rall.1D'[5]' -stim_base 8 -stim_label 8 dP    \
	-gltsym 'SYM: Vrel -Arel'                                        \
	-glt_label 1 V-A                                                 \
	-fout -tout -x1D X.xmat.1D -xjpeg X.jpg                          \
	-fitts fitts.FT                                               	 \
	-errts errts.FT                                               	 \
	-bucket stats.FT

References

stimulus timing tutorial