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Step 1: Load data we have 20 axial slices for the brain starting from the neck up to top of the head for each of three modalities: T1, T1C, T2.

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Presentation on theme: "Step 1: Load data we have 20 axial slices for the brain starting from the neck up to top of the head for each of three modalities: T1, T1C, T2."— Presentation transcript:

1 Step 1: Load data we have 20 axial slices for the brain starting from the neck up to top of the head for each of three modalities: T1, T1C, T2

2 Step 2: 2-dimensional noise reduction (2D NR) Apply SUSAN (Smallest Univalue Segment Assimilating Nucleus) filtering independently on each slice

3 Step 3: Inter-Slice Intensity Variation Reduction (ISC) Use weighted regression to make tissue types consistently appear the same on different slices

4 Step 4: Intensity Inhomogeneity Reduction (INH) N3 (nonparametric intensity nonuniformity normalization) method enforces consistent tissue appearance within the same volume

5 Step 5: 3-dimensional noise reduction (3D NR) Apply SUSAN filtering to the entire 3d volume

6 Step 6: Coregistration (Coreg) Use normalized mutual information (NMI) to determine how best to align the different modalities

7 Step 7: Template Registration (Regist) Apply affine + non-linear transformations with different levels of regularization to align patient scans with “normal” template

8 Step 8: Intensity Standardization (Int Std) Use weighted regression to increase consistency within volumes of identical tissue identified by the template

9 Step 9: Feature Extraction + Pixel Classification Classify each pixel as being either “tumour” or “normal”

10 Step 10: Relaxation (Post Process) Correct potential mistakes made by the classifier (remove outliers that are unlikely to actually be tumour, smooth edges, fill holes, etc.)

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