FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

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fMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory

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Transcript of FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Page 1: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

fMRI: Biological Basis and Experiment DesignLecture 24: GLM in all its glory

Page 2: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Previously ...

X =

time

Assumed shape of HIRF, analysis for single voxel

Page 3: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Previously ...

X =

time

voxels

voxels

Assumed shape of HIRF, analysis in many voxels

Page 4: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Today

x =

time

Estimate shape of HIRF (single voxel)

Page 5: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Design matrix

time

stim 1 stim 2 stim 3 baseline trends, etc.stim

1stim

2stim

3

Assuming HIRF: Not assuming HIRF:

Page 6: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Regression coefficients

stim 1

Assuming HIRF: Not assuming HIRF:

stim 2

stim 3

trend 1

trend 2

trend 3

stim 1

stim 2

stim 3

trends

Page 7: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 1: Slow ER, "same" HIRFs, no trends

no trends

A x

Data simulation: A*x + noise

Page 8: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 1: Slow ER, "same" HIRFs, no trends

Page 9: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 1: Slow ER, "same" HIRFs, no trends

Page 10: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 2: Slow ER, "same" HIRFs, trends

Page 11: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 2: Slow ER, "same" HIRFs, trends

Page 12: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 3: Rapid ER, "same" HIRFs, no trends

Page 13: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 3: Rapid ER, "same" HIRFs, no trends

Page 14: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 4: Rapid ER, diff. HIRFs, no trends

Page 15: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 4: Rapid ER, diff. HIRFs, no trends

Page 16: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 5: Rapid ER, diff. HIRFs, trends

Page 17: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 5: Rapid ER, diff. HIRFs, trends

Page 18: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 6: Block design, diff. HIRFs, trends

Page 19: FMRI: Biological Basis and Experiment Design Lecture 24: GLM in all its glory.

Example 6: Block design, diff. HIRFs, trends


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