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ICC_MAN

ICC_MAN. T2_MAN , n=92. BPF_MAN. GDC. X=[BPF_MAN, T2LV_MAN]. Y = pdist(X); ('euclidean' default). Z = linkage(Y); ('single' default). Z = linkage(Y,'complete');. Z = linkage(Y,'average');. Z = linkage(Y,'weighted');. Z = linkage(Y,'centroid');. Z = linkage(Y,'ward');.

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ICC_MAN

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  1. ICC_MAN

  2. T2_MAN , n=92

  3. BPF_MAN

  4. GDC

  5. X=[BPF_MAN, T2LV_MAN] Y = pdist(X); ('euclidean' default) Z = linkage(Y); ('single' default) Z = linkage(Y,'complete'); Z = linkage(Y,'average'); Z = linkage(Y,'weighted'); Z = linkage(Y,'centroid'); Z = linkage(Y,'ward'); r = corr(Y',D','type','spearman') r = 0.9100 gscatter(T2LV_MAN,BPF_MAN, T,'','xos');

  6. Y = pdist(X,'seuclidean'); Z = linkage(Y); ('single' default) Z = linkage(Y,'complete'); Z = linkage(Y,'average'); Z = linkage(Y,'weighted'); Z = linkage(Y,'centroid'); Z = linkage(Y,'ward'); [c,D] = cophenet(Z,Y); r = corr(Y',D','type','spearman'); r = 0.7366

  7. Y = pdist(X,'seuclidean'); Z = linkage(Y,'ward') [c,D] = cophenet(Z,Y); c = 0.6618 r = 0.7366 r = corr(Y',D','type','spearman');

  8. Y = pdist(X,'seuclidean'); Z = linkage(Y,'ward')

  9. Y = pdist(X,'seuclidean'); Z = linkage(Y,'ward')

  10. Y = pdist(X,'mahalanobis'); Z = linkage(Y); ('single' default) Z = linkage(Y,'complete'); Z = linkage(Y,'average'); Z = linkage(Y,'weighted'); Z = linkage(Y,'centroid'); Z = linkage(Y,'ward');

  11. Z = linkage(Y,'complete'); Y = pdist(X,'mahalanobis'); r = corr(Y',D','type','spearman') 0.6998 c = cophenet(Z,Y) 0.7460

  12. Z = linkage(Y,'complete'); Y = pdist(X,'mahalanobis');

  13. Y = pdist(X,'mahalanobis'); Z = linkage(Y,'average');

  14. Y = pdist(X,'mahalanobis'); Z = linkage(Y,'weighted');

  15. Y = pdist(X,'mahalanobis'); Z = linkage(Y,'weighted');

  16. Z = linkage(Y,'ward') Y = pdist(X,'mahalanobis');

  17. Z = linkage(Y,'ward') Y = pdist(X,'mahalanobis');

  18. Y = pdist(X,'cityblock'); Z = linkage(Y); ('single' default) Z = linkage(Y,'complete'); Z = linkage(Y,'average'); Z = linkage(Y,'weighted'); Z = linkage(Y,'centroid'); Z = linkage(Y,'ward');

  19. Y = pdist(X,'minkowski'); Z = linkage(Y); ('single' default) Z = linkage(Y,'complete'); Z = linkage(Y,'average'); Z = linkage(Y,'weighted'); Z = linkage(Y,'centroid'); Z = linkage(Y,'ward');

  20. Y = pdist(X,'cosine'); Z = linkage(Y); ('single' default) Z = linkage(Y,'complete'); Z = linkage(Y,'average'); Z = linkage(Y,'weighted'); Z = linkage(Y,'centroid'); Z = linkage(Y,'ward');

  21. Y = pdist(X,'correlation'); Z = linkage(Y); ('single' default) Z = linkage(Y,'complete'); Z = linkage(Y,'average'); Z = linkage(Y,'weighted'); Z = linkage(Y,'centroid'); Z = linkage(Y,'ward');

  22. Y = pdist(X,'spearman'); Z = linkage(Y); ('single' default) Z = linkage(Y,'complete'); Z = linkage(Y,'average'); Z = linkage(Y,'weighted'); Z = linkage(Y,'centroid'); Z = linkage(Y,'ward');

  23. Y = pdist(X,'hamming'); Y = pdist(X,'jaccard'); Z = linkage(Y); ('single' default) Z = linkage(Y,'complete'); Z = linkage(Y,'centroid'); Z = linkage(Y,'ward'); Z = linkage(Y,'average'); Z = linkage(Y,'weighted');

  24. Y = pdist(X,'chebychev'); Z = linkage(Y); ('single' default) Z = linkage(Y,'complete'); Z = linkage(Y,'average'); Z = linkage(Y,'weighted'); Z = linkage(Y,'centroid'); Z = linkage(Y,'ward');

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