[caret-users] Palette editing
Alex Fornito
fornitoa at unimelb.edu.au
Tue May 13 05:12:19 CDT 2008
I'm sorry - my fault. There was a problem with the way we were writing out
some images. Its fixed now. Sorry!!
On 12/05/2008 17:46, "Donna Dierker" <donna at brainvis.wustl.edu> wrote:
> Make sure you have primary overlay selected as Metric on the D/C menu,
> and that you have the right column selected. If so, save your metric
> results, if needed, and upload the metric here:
>
> http://pulvinar.wustl.edu/cgi-bin/upload.cgi
>
> Upload the volume you mapped, too.
>
> On 05/12/2008 11:40 AM, Alex Fornito wrote:
>> Thanks John.
>> It seems that no matter what I do, I am unable to visualize the problem.
>> This makes me think something has gone wrong with the mapping, although it
>> seems to proceed fine when I run it.
>> I can overlay the volume on say, the avg152 in FSLview, and have used
>> exactly the same procedure that I have previoulsy in Caret to successfully
>> map other volumes that have a similar format (albeit with different
>> intensity ranges).
>> Can you recommend a way of troubleshooting this problem?
>> Thanks,
>> Alex
>>
>>
>> On 12/05/2008 14:28, "John Harwell" <john at brainvis.wustl.edu> wrote:
>>
>>
>>> Alex,
>>>
>>> On one of Display Control's Metric pages is a group of options named
>>> "Color Mapping". Its default value is "Auto Scale" in which the most
>>> positive metric value is mapped to +1 in the palette, the zero metric
>>> is mapped to zero in the palette, and the most negative metric is
>>> mapped to -1 in the palette. If your data truly ranges from ranges
>>> from zero to 300, you could stick with auto scale. If not, change the
>>> "Color Mapping" to "User Scale" and set the "Pos Min/Max" values to
>>> 0.0 and 300.0. If you palette has red at 0.33, orange at 0.66, and
>>> yellow at 1.0, metric values of 0 to 100 are assigned red, metric
>>> values of 100 to 200 are assigned orange, and metric values of 200 to
>>> 300 are assigned yellow.
>>>
>>> Also see
>>> "http://brainvis.wustl.edu/CaretHelpAccount/caret5_help/dialogs/display_cont
>>> ro
>>> l_dialog.html#MetricSettingsPage
>>> ".
>>>
>>> John
>>>
>>> On May 12, 2008, at 4:33 AM, Alex Fornito wrote:
>>>
>>>
>>>> Hi again,
>>>> As a second step, I would like to map a volume onto the PALS
>>>> surface in
>>>> which each voxel in the volume is assigned a value between 0 and
>>>> 300. I
>>>> would like to visualise it as some sort of heatmap, such that lower
>>>> values
>>>> are red, gradually moving through orange and yellow to represent
>>>> higher
>>>> values.
>>>>
>>>> I have tried editing the palettes through the GUI, but it seems the
>>>> values
>>>> assigned to colours must be between -1 and +1. Is there any way to
>>>> create
>>>> palettes for arbitrary scales, or another way to visualize the image
>>>> as
>>>> decsribed above?
>>>>
>>>> Thanks again for your help,
>>>> Alex
>>>>
>>>>
>>>> On 09/05/2008 22:18, "Donna Dierker" <donna at brainvis.wustl.edu> wrote:
>>>>
>>>>
>>>>> Hi Alex,
>>>>>
>>>>> You are missing something: The all important Attributes: Paint:
>>>>> Generate Colors for paints without colors. I want to say you must
>>>>> have
>>>>> it, but that's overstating it just a bit. It's well worth
>>>>> downloading
>>>>> the latest snapshot here:
>>>>>
>>>>> http://brainvis.wustl.edu/pub/caret/
>>>>> login pub
>>>>> password download
>>>>>
>>>>> If you'd really rather not, the you can still map the ROI as paint,
>>>>> and
>>>>> then save the resulting paint file; convert it to ASCII using the
>>>>> endangered File: Convert data file formats option; and then use a
>>>>> text
>>>>> editor to extract the paint names from it. Then, manually create an
>>>>> area color file to map the paint names to RGB colors:
>>>>>
>>>>> http://brainmap.wustl.edu/caret/caret_help/file_formats/file_formats.html#
>>>>> ar
>>>>> ea
>>>>> Color
>>>>>
>>>>> I'm puzzled over two things in your message:
>>>>>
>>>>> * The 12 PALS subjects' paint columns makes sense only if you have
>>>>> loaded an existing PALS paint file such as
>>>>> Human.PALS_B12.IDsulci_B1-12_RIGHT.clean.73730.atlas.paint, but even
>>>>> then, after mapping your ROI paint volume, you should have a 13th (or
>>>>> more) column for what you just mapped.
>>>>>
>>>>> * The Edit paint names should show more than one name, if you
>>>>> mapped
>>>>> a ROI volume with more than one intensity.
>>>>>
>>>>> I have detailed all the steps in what I did, in hopes that you can
>>>>> pinpoint the problem on your end (after upgrading to the latest
>>>>> snapshot):
>>>>>
>>>>> Download the CARET_TUTORIAL_SEPT06.zip dataset:
>>>>>
>>>>> http://sumsdb.wustl.edu/sums/directory.do?id=6585200
>>>>>
>>>>> Extract the zip file and cd CARET_TUTORIAL_SEPT06 directory.
>>>>>
>>>>> Launch caret and select PALS_B12.RIGHT.DEMO.73730.spec.
>>>>>
>>>>> Load scenes and double-click scene 13.
>>>>>
>>>>> File: view current files
>>>>> Click X to clear the loaded paint file
>>>>> Note: I think your 12 loaded paint columns may have been preloaded
>>>>> from
>>>>> an existing PALS paint file.
>>>>> Click X to clear both loaded average fiducial coord files
>>>>> Note: These are the wrong space; we need the AFNI coord here.
>>>>> Yours may
>>>>> vary.
>>>>>
>>>>> Toolbar: Spec: Open
>>>>> Human.PALS_B12.RIGHT_AVG_B1-12.FIDUCIAL_AFNI.clean.73730.coord
>>>>>
>>>>> Attributes: Map volume to surface
>>>>> Paint ROI or probabilistic atlas data
>>>>> Add volumes from disk: TTatlas.nii
>>>>> Map to Caret
>>>>> select Human.PALS_B12.RIGHT_AVG_B1-12.FIDUCIAL_AFNI.clean.
>>>>> 73730.coord
>>>>> accept remaining defaults
>>>>>
>>>>> Attributes: Paint: Edit paint names, if desired
>>>>>
>>>>> Attributes: Paint: Generate colors for paints with no colors
>>>>>
>>>>> D/C: Overlay/Underlay: Surface
>>>>> Primary overlay Paint
>>>>> Select desired display column
>>>>> D/C: Paint Main
>>>>> Display Color key
>>>>>
>>>>> File: Save Data File: Paint
>>>>> File: Save Data File: Area Color File
>>>>>
>>>>> Donna
>>>>> PS I assume you will attend OHBM2008, right? John and David will
>>>>> be there.
>>>>>
>>>>> On 05/09/2008 02:25 PM, Alex Fornito wrote:
>>>>>
>>>>>> Sorry, I can't seem to follow.
>>>>>>
>>>>>> I map the volume to the PALS surface as a Paint ROI. I then get 12
>>>>>> options
>>>>>> in the paint D/C dialog, corresponding to a mapping to the 12
>>>>>> cases in the
>>>>>> PALS atlas. Is it possible to obtain one, as per the AFM option?
>>>>>>
>>>>>> If I go to Attributes > Paint > Edit paint names, all I have is an
>>>>>> option to
>>>>>> change one name.
>>>>>>
>>>>>> After I change the name, there is no option under Attributes >
>>>>>> Paint that
>>>>>> corresponds to Generate colours for paint colours without colours.
>>>>>> The
>>>>>> options I have under Attributes > Paint are:
>>>>>>
>>>>>> Assign nodes within displayed borders.
>>>>>> Cleanup paint names.
>>>>>> Clear all or part of paint file.
>>>>>> Convert pain column to paint volume.
>>>>>> Edit paint names.
>>>>>>
>>>>>> Am I missing something?
>>>>>> I'm sing version Caret 5.51
>>>>>>
>>>>>> Thanks again,
>>>>>> Alex
>>>>>>
>>>>>> On 09/05/2008 17:57, "Donna Dierker" <donna at brainvis.wustl.edu>
>>>>>> wrote:
>>>>>>
>>>>>>
>>>>>>
>>>>>>> Hi Alex,
>>>>>>>
>>>>>>> Cool! John has added some features that make this a little easier.
>>>>>>>
>>>>>>> Go ahead and map your volume as ROI paint. If mapping to atlas
>>>>>>> doesn't
>>>>>>> give you the options you'd like, simply start with a spec file
>>>>>>> that has
>>>>>>> the PALS average fiducial surfaces in it, and map to Caret while
>>>>>>> the
>>>>>>> average fiducial surface is loaded.
>>>>>>>
>>>>>>> Then you won't be able to see the paint overlay yet, because no
>>>>>>> color is
>>>>>>> associated with the automatically assigned paint name. First, do
>>>>>>> Attributes: Paint: Edit Paint Names and properties to update the
>>>>>>> paint
>>>>>>> names to something more meaningful. Then, do Attributes: Paint:
>>>>>>> Generate colors for paint without colors. Save both the paint
>>>>>>> and area
>>>>>>> color files: The paint assigns nodes to paint names; the area
>>>>>>> color
>>>>>>> maps paint names to RGB colors. If you change the name of the
>>>>>>> paint,
>>>>>>> change it in both. If you want to do this with perl, sed, or awk,
>>>>>>> convert the paint file to ASCII first (using either File: Convert
>>>>>>> data
>>>>>>> file formats or the caret_command utility).
>>>>>>>
>>>>>>> Make sure D/C overlay/underlay surface has paint as overlay, and
>>>>>>> I like
>>>>>>> D/C: Paint Main : Display Color key.
>>>>>>>
>>>>>>> A capture of the mapped TTatlas is attached.
>>>>>>>
>>>>>>> Donna
>>>>>>>
>>>>>>> On 05/09/2008 11:33 AM, Donna Dierker wrote:
>>>>>>>
>>>>>>>
>>>>>>>> Hi Alex,
>>>>>>>>
>>>>>>>> Would you mind uploading your ROI volume
>>>>>>>> (http://pulvinar.wustl.edu/cgi-bin/upload.cgi)? It has been
>>>>>>>> quite a
>>>>>>>> while since I've done this, and I know the gotchas are in this
>>>>>>>> case
>>>>>>>> more case/data dependent than most (e.g., life will be easier if
>>>>>>>> your
>>>>>>>> intensities increment like 1, 2, 3, rather than 5, 10, 15).
>>>>>>>> Next best
>>>>>>>> thing is a histogram of the values.
>>>>>>>>
>>>>>>>> Meanwhile, I'll dig TTatlas out of my AFNI distribution, so I
>>>>>>>> can try
>>>>>>>> mapping it.
>>>>>>>>
>>>>>>>> Donna
>>>>>>>>
>>>>>>>> On 05/09/2008 11:26 AM, Alex Fornito wrote:
>>>>>>>>
>>>>>>>>
>>>>>>>>> Hi Donna,
>>>>>>>>> You're right, I am trying to overlay something like the AAL,
>>>>>>>>> where each
>>>>>>>>> 'intensity' in the region corresponds to a different ROI.
>>>>>>>>>
>>>>>>>>> I would like to load it into Caret so that each ROI gets a
>>>>>>>>> different
>>>>>>>>> colour.
>>>>>>>>> It sounds like I should indeed load it as a paint rather than
>>>>>>>>> metric
>>>>>>>>> file,
>>>>>>>>> although when I go to Attributes > Map Volume to Surface and
>>>>>>>>> load as
>>>>>>>>> Paint
>>>>>>>>> (ROI) or probabistic data, I get 12 options in the paint
>>>>>>>>> selection
>>>>>>>>> area in
>>>>>>>>> the D/C, corresponding to the mapping for each of the cases in
>>>>>>>>> the PALS.
>>>>>>>>> When I try to visualize any of them, I can't see anything.
>>>>>>>>>
>>>>>>>>> I would just like the AFM mapping, but there does not seem to
>>>>>>>>> be an
>>>>>>>>> option
>>>>>>>>> for selecting this with Paint, as their is with metric. In the
>>>>>>>>> summary
>>>>>>>>> before proceeding with the mapping however, it does state that
>>>>>>>>> AFM
>>>>>>>>> will be
>>>>>>>>> performed.
>>>>>>>>> Am I missing something?
>>>>>>>>>
>>>>>>>>>
>>>>>>>>> On 09/05/2008 14:47, "Donna Dierker" <donna at brainvis.wustl.edu>
>>>>>>>>> wrote:
>>>>>>>>>
>>>>>>>>>
>>>>>>>>>
>>>>>>>>>
>>>>>>>>>> Hi Alex,
>>>>>>>>>>
>>>>>>>>>> What you describe is more like what we call a ROI paint
>>>>>>>>>> volume, like
>>>>>>>>>> the
>>>>>>>>>> AAL map shown here:
>>>>>>>>>>
>>>>>>>>>> http://http://www.sph.sc.edu/comd/rorden/template.htmlwww.sph.sc.edu/
>>>>>>>>>> co
>>>>>>>>>> md
>>>>>>>>>> /r
>>>>>>>>>> ord
>>>>>>>>>>
>>>>>>>>>> en/template.html
>>>>>>>>>>
>>>>>>>>>> When you map in Caret, you have the option of mapping
>>>>>>>>>> functional as
>>>>>>>>>> metric, or Paint (ROI); you want the latter.
>>>>>>>>>>
>>>>>>>>>> The tricky bit is that NIfTI (to my imperfect knowledge)
>>>>>>>>>> doesn't yet
>>>>>>>>>> support incoding of ROI lookup tables. (John will correct me
>>>>>>>>>> if I'm
>>>>>>>>>> wrong.) The only two ways I know to do this, using Caret, are
>>>>>>>>>> with
>>>>>>>>>> WUNIL 4dfp ifh files, or with AFNI volumes, using a VElab
>>>>>>>>>> (non-standard)
>>>>>>>>>> LUT tag in the HEAD file. An example of the latter is in the
>>>>>>>>>> Sept 2006
>>>>>>>>>> tutorial dataset
>>>>>>>>>> http://sumsdb.wustl.edu/sums/directory.do?id=6585200)
>>>>>>>>>> :
>>>>>>>>>>
>>>>>>>>>> CARET_TUTORIAL_SEPT06/PALS_B12.B1-12.BOTH-HEMS.PROB-
>>>>>>>>>> ATLAS_IDsulci.paint.a
>>>>>>>>>> li
>>>>>>>>>> gn_
>>>>>>>>>>
>>>>>>>>>> 222+orig.HEAD
>>>>>>>>>>
>>>>>>>>>> type = string-attribute
>>>>>>>>>> name = LUT_NAMES
>>>>>>>>>> count = 423
>>>>>>>>>> '???~???
>>>>>>>>>> _not_used
>>>>>>>>>> ~GYRAL~SUL.STS~SUL.AS~SUL.SF~SUL.ITS~SUL.PoCeS~SUL.PoSub
>>>>>>>>>> Ce
>>>>>>>>>> S~S
>>>>>>>>>>
>>>>>>>>>> UL.CeS~SUL.I
>>>>>>>>>> PrCeS
>>>>>>>>>> ~
>>>>>>>>>> SUL
>>>>>>>>>> .pITS~SUL~SUL.IFS~SUL.IPS~SUL.AOS~SUL.OTS~CENTRAL~SUL.intFS~SUL.
>>>>>>>>>> SP
>>>>>>>>>> rCe
>>>>>>>>>>
>>>>>>>>>> S~SUL.FOS~SU
>>>>>>>>>> L
>>>>>>>>>> .MFS
>>>>>>>>>> ~
>>>>>>>>>> SUL
>>>>>>>>>> .TOrbS~SUL.LOS~SUL.FMS~SUL.SFS~SUL.CoS~SUL.TOS~SUL.SupPS~SUL.RhS
>>>>>>>>>> ~C
>>>>>>>>>> ALC
>>>>>>>>>>
>>>>>>>>>> ARINE~MEDIAL
>>>>>>>>>> .WALL
>>>>>>>>>> ~
>>>>>>>>>> SUL
>>>>>>>>>> .CaSd~SUL.OrbS~SUL.HF~SUL.CaSv~SUL.POS~SUL.CiSmr~SUL.CiS~SUL.SSS
>>>>>>>>>> ~S
>>>>>>>>>> UL.
>>>>>>>>>>
>>>>>>>>>> SubPS~SUL.Ol
>>>>>>>>>> fS~SUL.ILS~SUL.SRS~SUL.ISS~SUL.MPrCeS~SUL.PaCeS~SUL.IRS~SUL.LuS~
>>>>>>>>>>
>>>>>>>>>> Here, the ordinal position of the ROI/paint name corresponds
>>>>>>>>>> to the
>>>>>>>>>> intensity value in the volume.
>>>>>>>>>>
>>>>>>>>>> You then map these paint names to RGB colors using an ordinary
>>>>>>>>>> Caret
>>>>>>>>>> area color file.
>>>>>>>>>>
>>>>>>>>>> Donna
>>>>>>>>>>
>>>>>>>>>> On 05/08/2008 10:44 AM, Alex Fornito wrote:
>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>>> Hi,
>>>>>>>>>>> Thanks for the feedback, although I need it to overlay a
>>>>>>>>>>> volume on the
>>>>>>>>>>> surface. I essentially have a volume-based template
>>>>>>>>>>> comprising several
>>>>>>>>>>> thousand ROIs, with each ROI being assigned a distinct
>>>>>>>>>>> 'intensity'.
>>>>>>>>>>> I have
>>>>>>>>>>> imported the volume-based template into Caret as a metric
>>>>>>>>>>> file, and
>>>>>>>>>>> would
>>>>>>>>>>> like to be able to visualize it such that each volume
>>>>>>>>>>> 'intensity'
>>>>>>>>>>> (corresponding to a different ROI) is a different colour.
>>>>>>>>>>> I imagine the appearance would be much like the image you
>>>>>>>>>>> sent, but
>>>>>>>>>>> somewhat
>>>>>>>>>>> coarser, since its not a nodal resolution.
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>> From what I understand, a paint file can't be used to colour
>>>>>>>>>>>> code
>>>>>>>>>>>> a metric
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>> file?
>>>>>>>>>>> Is there another way of achieving my goal that I'm unaware of?
>>>>>>>>>>>
>>>>>>>>>>> Thanks again,
>>>>>>>>>>> Alex
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> On 06/05/2008 15:13, "John Harwell" <john at brainvis.wustl.edu>
>>>>>>>>>>> wrote:
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>> Alex,
>>>>>>>>>>>>
>>>>>>>>>>>> If you generated a palette file with that many colors I
>>>>>>>>>>>> think it
>>>>>>>>>>>> would
>>>>>>>>>>>> be slow to load and slot to make the color assignments. A
>>>>>>>>>>>> better
>>>>>>>>>>>> alternative is to use this python script to generate an RGB
>>>>>>>>>>>> paint
>>>>>>>>>>>> file
>>>>>>>>>>>> containing random colors. You will need to adjust the
>>>>>>>>>>>> "numberOfNodes"
>>>>>>>>>>>> variable in the script to match your dataset.
>>>>>>>>>>>>
>>>>>>>>>>>> -------------------------------------------------------------------
>>>>>>>>>>>> --
>>>>>>>>>>>> --
>>>>>>>>>>>> --
>>>>>>>>>>>> ---
>>>>>>>>>>>>
>>>>>>>>>>>> --
>>>>>>>>>>>> ----------------------------
>>>>>>>>>>>>
>>>>>>>>>>>> #!/usr/bin/python
>>>>>>>>>>>> #
>>>>>>>>>>>> # Create an RGB paint file with random colors
>>>>>>>>>>>> #
>>>>>>>>>>>> import os
>>>>>>>>>>>> import random
>>>>>>>>>>>> import sys
>>>>>>>>>>>>
>>>>>>>>>>>> #
>>>>>>>>>>>> # Name of RGB Paint file and number of nodes in the file
>>>>>>>>>>>> #
>>>>>>>>>>>> rgbPaintFileName = "random.RGB_paint"
>>>>>>>>>>>> numberOfNodes = 71723
>>>>>>>>>>>>
>>>>>>>>>>>> #
>>>>>>>>>>>> # Create an RGB paint file with random colors
>>>>>>>>>>>> #
>>>>>>>>>>>> file = open(rgbPaintFileName, 'w')
>>>>>>>>>>>> file.write("tag-version " + str(2) + "\n")
>>>>>>>>>>>> file.write("tag-number-of-nodes " + str(numberOfNodes) + "\n")
>>>>>>>>>>>> file.write("tag-number-of-columns " + str(1) + "\n")
>>>>>>>>>>>> file.write("tag-BEGIN-DATA\n");
>>>>>>>>>>>> for i in range(numberOfNodes):
>>>>>>>>>>>> node = str(i)
>>>>>>>>>>>> red = str(random.random() * 255.0)
>>>>>>>>>>>> green = str(random.random() * 255.0)
>>>>>>>>>>>> blue = str(random.random() * 255.0)
>>>>>>>>>>>> line = node + " " + red + " " + green + " " + blue + "\n"
>>>>>>>>>>>> file.write(line)
>>>>>>>>>>>>
>>>>>>>>>>>> file.close()
>>>>>>>>>>>>
>>>>>>>>>>>> -------------------------------------------------------------------
>>>>>>>>>>>> --
>>>>>>>>>>>> --
>>>>>>>>>>>> --
>>>>>>>>>>>> ---
>>>>>>>>>>>>
>>>>>>>>>>>> --
>>>>>>>>>>>> ----------------------------
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> -----------------------------------
>>>>>>>>>>>> John Harwell
>>>>>>>>>>>> john at brainvis.wustl.edu
>>>>>>>>>>>>
>>>>>>>>>>>> Department of Anatomy and Neurobiology
>>>>>>>>>>>> Washington University School of Medicine
>>>>>>>>>>>> 660 S. Euclid Ave Box 8108
>>>>>>>>>>>> Saint Louis, MO 63110
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> On May 6, 2008, at 4:46 AM, Alex Fornito wrote:
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> Hi,
>>>>>>>>>>>> I need to generate a custom palette for viewing some masks.
>>>>>>>>>>>> I need
>>>>>>>>>>>> it to
>>>>>>>>>>>> contain 5000-10000 colours, in no particular order or
>>>>>>>>>>>> pattern. I.e.,
>>>>>>>>>>>> they
>>>>>>>>>>>> can be random, they just need to provide some kind of visual
>>>>>>>>>>>> distinction
>>>>>>>>>>>> between 5000-10000 points on the cortical surface. I can
>>>>>>>>>>>> see how to
>>>>>>>>>>>> manually
>>>>>>>>>>>> edit palettes, but it does not seem feasible to repeat the
>>>>>>>>>>>> process
>>>>>>>>>>>> 1000s of
>>>>>>>>>>>> times. Is there a simple way to generate a palette with
>>>>>>>>>>>> several
>>>>>>>>>>>> 1000s of
>>>>>>>>>>>> random colours so that it can be used in Caret?
>>>>>>>>>>>> Thanks for your help,
>>>>>>>>>>>> Alex
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> _______________________________________________
>>>>>>>>>>>> caret-users mailing list
>>>>>>>>>>>> caret-users at brainvis.wustl.edu
>>>>>>>>>>>> http://brainvis.wustl.edu/mailman/listinfo/caret-users
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> _______________________________________________
>>>>>>>>>>>> caret-users mailing list
>>>>>>>>>>>> caret-users at brainvis.wustl.edu
>>>>>>>>>>>> http://brainvis.wustl.edu/mailman/listinfo/caret-users
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>> _______________________________________________
>>>>>>>>>> caret-users mailing list
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>>>>>>>>>> http://brainvis.wustl.edu/mailman/listinfo/caret-users
>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>
>>>>>>> _______________________________________________
>>>>>>> caret-users mailing list
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>>>>>>>
>>>>>>>
>>>>>>
>>>>> _______________________________________________
>>>>> caret-users mailing list
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>>>>>
>>>> --
>>>>
>>>> Alex Fornito
>>>> CJ Martin Post-Doctoral Fellow
>>>> Brain Mapping Unit
>>>> Department of Psychiatry
>>>> University of Cambridge
>>>> Addenbrooke¹s Hospital
>>>> Hills Rd, Cambridge
>>>> UK CB2 2QQ
>>>>
>>>> Email: af397 at cam.ac.uk
>>>> Phone: +44 (0) 1223 336587
>>>> Fax: +44 (0) 1223 336581
>>>>
>>>> Australian Details:
>>>>
>>>> Melbourne Neuropsychiatry Centre
>>>> National Neuroscience Facility
>>>> Levels 1 & 2, Alan Gilbert Building
>>>> 161 Barry St
>>>> Carlton South 3053
>>>> Victoria, Australia
>>>>
>>>> Email: fornitoa at unimelb.edu.au
>>>> Phone: +61 3 8344 1861
>>>> Fax: +61 3 9348 0469
>>>>
>>>>
>>>>
>>>> _______________________________________________
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>>>>
>>>>
>>> _______________________________________________
>>> caret-users mailing list
>>> caret-users at brainvis.wustl.edu
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>>>
>>
>>
>
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--
Alex Fornito
CJ Martin Post-Doctoral Fellow
Brain Mapping Unit
Department of Psychiatry
University of Cambridge
Addenbrooke¹s Hospital
Hills Rd, Cambridge
UK CB2 2QQ
Email: af397 at cam.ac.uk
Phone: +44 (0) 1223 336587
Fax: +44 (0) 1223 336581
Australian Details:
Melbourne Neuropsychiatry Centre
National Neuroscience Facility
Levels 1 & 2, Alan Gilbert Building
161 Barry St
Carlton South 3053
Victoria, Australia
Email: fornitoa at unimelb.edu.au
Phone: +61 3 8344 1861
Fax: +61 3 9348 0469
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