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multidimensional scaling tool cmdscale.m  (MathWorks Inc)


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    Structured Review

    MathWorks Inc multidimensional scaling tool cmdscale.m
    Brain-wide DOT CAPs. (A) Group-level spatial maps of HbR CAPs when k = 6, showing three anticorrelated CAP pairs, i.e., anterior-posterior (CAP4 and CAP5), dorsal-ventral (CAP1 and CAP2), and global pairs (CAP3 and CAP6); (B) group-level cluster centroids of 6 CAPs with ICs as building blocks. Large IC weights in each row (i.e., greater than 60% of the largest absolute value in the row) are denoted by solid circles (same colors used for anticorrelated CAP pairs); (C) spatial correlation (SC) between all possible pairs for the CAPs in (A). solid red dots: SC values < −0.90, indicating three anticorrelated pairs; (D) mean SC values of anticorrelated pairs and non-anticorrelated pairs of CAPs show statistically significant differences using a t-test (*****: p < 1e-5, corrected ); (E) the 3D distance map of the cluster centroids among 6 CAPs obtained with a <t>multidimensional</t> scaling tool from Matlab.
    Multidimensional Scaling Tool Cmdscale.M, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/multidimensional scaling tool cmdscale.m/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    multidimensional scaling tool cmdscale.m - by Bioz Stars, 2026-04
    90/100 stars

    Images

    1) Product Images from "Transient brain-wide coactivations and structured transitions revealed in hemodynamic imaging data"

    Article Title: Transient brain-wide coactivations and structured transitions revealed in hemodynamic imaging data

    Journal: NeuroImage

    doi: 10.1016/j.neuroimage.2022.119460

    Brain-wide DOT CAPs. (A) Group-level spatial maps of HbR CAPs when k = 6, showing three anticorrelated CAP pairs, i.e., anterior-posterior (CAP4 and CAP5), dorsal-ventral (CAP1 and CAP2), and global pairs (CAP3 and CAP6); (B) group-level cluster centroids of 6 CAPs with ICs as building blocks. Large IC weights in each row (i.e., greater than 60% of the largest absolute value in the row) are denoted by solid circles (same colors used for anticorrelated CAP pairs); (C) spatial correlation (SC) between all possible pairs for the CAPs in (A). solid red dots: SC values < −0.90, indicating three anticorrelated pairs; (D) mean SC values of anticorrelated pairs and non-anticorrelated pairs of CAPs show statistically significant differences using a t-test (*****: p < 1e-5, corrected ); (E) the 3D distance map of the cluster centroids among 6 CAPs obtained with a multidimensional scaling tool from Matlab.
    Figure Legend Snippet: Brain-wide DOT CAPs. (A) Group-level spatial maps of HbR CAPs when k = 6, showing three anticorrelated CAP pairs, i.e., anterior-posterior (CAP4 and CAP5), dorsal-ventral (CAP1 and CAP2), and global pairs (CAP3 and CAP6); (B) group-level cluster centroids of 6 CAPs with ICs as building blocks. Large IC weights in each row (i.e., greater than 60% of the largest absolute value in the row) are denoted by solid circles (same colors used for anticorrelated CAP pairs); (C) spatial correlation (SC) between all possible pairs for the CAPs in (A). solid red dots: SC values < −0.90, indicating three anticorrelated pairs; (D) mean SC values of anticorrelated pairs and non-anticorrelated pairs of CAPs show statistically significant differences using a t-test (*****: p < 1e-5, corrected ); (E) the 3D distance map of the cluster centroids among 6 CAPs obtained with a multidimensional scaling tool from Matlab.

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    multidimensional scaling tool cmdscale.m  (MathWorks Inc)
    90
    MathWorks Inc multidimensional scaling tool cmdscale.m
    Brain-wide DOT CAPs. (A) Group-level spatial maps of HbR CAPs when k = 6, showing three anticorrelated CAP pairs, i.e., anterior-posterior (CAP4 and CAP5), dorsal-ventral (CAP1 and CAP2), and global pairs (CAP3 and CAP6); (B) group-level cluster centroids of 6 CAPs with ICs as building blocks. Large IC weights in each row (i.e., greater than 60% of the largest absolute value in the row) are denoted by solid circles (same colors used for anticorrelated CAP pairs); (C) spatial correlation (SC) between all possible pairs for the CAPs in (A). solid red dots: SC values < −0.90, indicating three anticorrelated pairs; (D) mean SC values of anticorrelated pairs and non-anticorrelated pairs of CAPs show statistically significant differences using a t-test (*****: p < 1e-5, corrected ); (E) the 3D distance map of the cluster centroids among 6 CAPs obtained with a <t>multidimensional</t> scaling tool from Matlab.
    Multidimensional Scaling Tool Cmdscale.M, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/multidimensional scaling tool cmdscale.m/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    multidimensional scaling tool cmdscale.m - by Bioz Stars, 2026-04
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Brain-wide DOT CAPs. (A) Group-level spatial maps of HbR CAPs when k = 6, showing three anticorrelated CAP pairs, i.e., anterior-posterior (CAP4 and CAP5), dorsal-ventral (CAP1 and CAP2), and global pairs (CAP3 and CAP6); (B) group-level cluster centroids of 6 CAPs with ICs as building blocks. Large IC weights in each row (i.e., greater than 60% of the largest absolute value in the row) are denoted by solid circles (same colors used for anticorrelated CAP pairs); (C) spatial correlation (SC) between all possible pairs for the CAPs in (A). solid red dots: SC values < −0.90, indicating three anticorrelated pairs; (D) mean SC values of anticorrelated pairs and non-anticorrelated pairs of CAPs show statistically significant differences using a t-test (*****: p < 1e-5, corrected ); (E) the 3D distance map of the cluster centroids among 6 CAPs obtained with a multidimensional scaling tool from Matlab.

    Journal: NeuroImage

    Article Title: Transient brain-wide coactivations and structured transitions revealed in hemodynamic imaging data

    doi: 10.1016/j.neuroimage.2022.119460

    Figure Lengend Snippet: Brain-wide DOT CAPs. (A) Group-level spatial maps of HbR CAPs when k = 6, showing three anticorrelated CAP pairs, i.e., anterior-posterior (CAP4 and CAP5), dorsal-ventral (CAP1 and CAP2), and global pairs (CAP3 and CAP6); (B) group-level cluster centroids of 6 CAPs with ICs as building blocks. Large IC weights in each row (i.e., greater than 60% of the largest absolute value in the row) are denoted by solid circles (same colors used for anticorrelated CAP pairs); (C) spatial correlation (SC) between all possible pairs for the CAPs in (A). solid red dots: SC values < −0.90, indicating three anticorrelated pairs; (D) mean SC values of anticorrelated pairs and non-anticorrelated pairs of CAPs show statistically significant differences using a t-test (*****: p < 1e-5, corrected ); (E) the 3D distance map of the cluster centroids among 6 CAPs obtained with a multidimensional scaling tool from Matlab.

    Article Snippet: To evaluate the spatial link among all CAPs at the group level, the distances between their cluster centroid vectors were calculated and projected onto a 3D space using a multidimensional scaling tool from MATLAB, i.e., cmdscale.m ( ).

    Techniques: