Beauchamp:Lab Notebook: Difference between revisions
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#[[Beauchamp:MRI_Data_Analysis|Notes on analyzing MRI data (old)]] | |||
==General Notes== | |||
#[[Beauchamp:Software_Installation|How To Install Software and set up new computers]] | #[[Beauchamp:Software_Installation|How To Install Software and set up new computers]] | ||
#[[Beauchamp: | #[[Beauchamp:Ordering|How To order things for the lab]] | ||
==MRI== | ==MRI== | ||
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#[[Beauchamp:MVPA Notes|MVPA Notes]] | #[[Beauchamp:MVPA Notes|MVPA Notes]] | ||
#[[Beauchamp:RealTimefMRI|RealTimefMRI]] | #[[Beauchamp:RealTimefMRI|RealTimefMRI]] | ||
==TMS/TMS+MRI== | ==TMS/TMS+MRI== | ||
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==Electrophysiology== | ==Electrophysiology/Electrophysiology+MRI== | ||
[[Beauchamp:Electrophysiology|Electrophysiology Protocols]] | #[[Electrode Localization and Naming]] | ||
#[[Beauchamp:Electrophysiology|Electrophysiology Protocols]] | |||
[[Beauchamp:ECogAnalysis|Analyzing ECoG data (by Adam Burch)]] | #[[Beauchamp:ECogAnalysis|Analyzing ECoG data (by Adam Burch)]] | ||
==Psychophysics== | ==Psychophysics== | ||
[[Beauchamp:AuditoryTactile|New Auditory Tactile Experiment]] | #[[Beauchamp:AuditoryTactile|New Auditory Tactile Experiment]] | ||
#[[Beauchamp:dprime|d' (d-prime) Analysis]] | |||
[[Beauchamp:dprime|d' (d-prime) Analysis]] | #[[Beauchamp:RaceModel|Race Model Analysis]] | ||
[[Beauchamp:RaceModel|Race Model Analysis]] | |||
==Ordering== | ==Ordering== | ||
==McGurk Stimuli== | ==McGurk Stimuli== | ||
[[Beauchamp:Stimuli|McGurk Stimuli]] | [[Beauchamp:Stimuli|McGurk Stimuli]] |
Revision as of 13:52, 27 August 2010
General Notes
MRI
- Overview of fMRI Analysis
- Software Information Page
- Motion and Distortion Correction
- Autism Data
- Finding Distances on the Surface
- Finding Closest node on the Surface
- Creating AFNI BRIKs from MR Data
- Preparation for Creating Cortical Surface Models
- Creating Cortical Surface Models
- Using Cortical Surface Models
- What If a Cortical Surface Model Exists Already
- What If Cortical Surface Model Looks Bad
- Creating Standardized Surface Models
- FreeSurfer Standard Surface Models
- Creating Volume Average Datasets with AFNI
- Processing Diffusion Tensor Imaging Data
- Automatic VOI Initialization for Interactive Tractography
- Deterministic Tractography Constrained by Image Masks
- AFNI
- SUMA
- Free Surfer
- Caret
- Scanner Stimulus and Eye Tracker Setup
- Retinotopic Mapping
- AFNI Atlas Values
- Tactile Experiment Notes
- MVPA Notes
- RealTimefMRI
TMS/TMS+MRI
Electrophysiology/Electrophysiology+MRI