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datahigh matlab toolbox  (MathWorks Inc)


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    MathWorks Inc datahigh matlab toolbox
    Datahigh Matlab Toolbox, 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/datahigh matlab toolbox/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    datahigh matlab toolbox - by Bioz Stars, 2026-03
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    Image Search Results


    Features of open-source dimensionality reduction toolboxes regarding visualization tools, principal and usage programming language, availability of documentation, number of citations, and support by updates at least once per year.

    Journal: Frontiers in Neuroinformatics

    Article Title: Comparing Open-Source Toolboxes for Processing and Analysis of Spike and Local Field Potentials Data

    doi: 10.3389/fninf.2019.00057

    Figure Lengend Snippet: Features of open-source dimensionality reduction toolboxes regarding visualization tools, principal and usage programming language, availability of documentation, number of citations, and support by updates at least once per year.

    Article Snippet: See examples for application of DataHigh, dPCA, and TCA toolboxes in our open MATLAB script.

    Techniques:

    Comparing dimensionality reduction toolboxes: diagnostic and statistical tools.

    Journal: Frontiers in Neuroinformatics

    Article Title: Comparing Open-Source Toolboxes for Processing and Analysis of Spike and Local Field Potentials Data

    doi: 10.3389/fninf.2019.00057

    Figure Lengend Snippet: Comparing dimensionality reduction toolboxes: diagnostic and statistical tools.

    Article Snippet: See examples for application of DataHigh, dPCA, and TCA toolboxes in our open MATLAB script.

    Techniques: Diagnostic Assay

    Flow diagram for visualization of population activity. Dimensionality reduction is performed on high-dimensional population activity (n-d, where n is the number of neurons) to extract a latent space (k-d, where k is the number of latent variables). Typically, k is less than n but greater than 3. We can then use DataHigh to visualize many 2-d projections of the same latent space. Shown here are six different 2-d projections of the same 6-d (k = 6) latent space described in section 3.3.

    Journal: Journal of neural engineering

    Article Title: DataHigh: Graphical user interface for visualizing and interacting with high-dimensional neural activity

    doi: 10.1088/1741-2560/10/6/066012

    Figure Lengend Snippet: Flow diagram for visualization of population activity. Dimensionality reduction is performed on high-dimensional population activity (n-d, where n is the number of neurons) to extract a latent space (k-d, where k is the number of latent variables). Typically, k is less than n but greater than 3. We can then use DataHigh to visualize many 2-d projections of the same latent space. Shown here are six different 2-d projections of the same 6-d (k = 6) latent space described in section 3.3.

    Article Snippet: The DataHigh software package for Matlab can be downloaded from http://www.ece.cmu.edu/~byronyu/software.shtml .

    Techniques: Activity Assay

    Flowchart for a data analysis procedure that utilizes visualization. The user may input raw spike trains into DataHigh, perform dimensionality reduction using the DimReduce tool (left-hand side of dimensionality reduction), and visualize many 2-d projections of the extracted latent space using DataHigh. The user may also perform dimensionality reduction outside the DataHigh environment (right-hand side of dimensionality reduction), and input the identified latent variables into DataHigh for visualization.

    Journal: Journal of neural engineering

    Article Title: DataHigh: Graphical user interface for visualizing and interacting with high-dimensional neural activity

    doi: 10.1088/1741-2560/10/6/066012

    Figure Lengend Snippet: Flowchart for a data analysis procedure that utilizes visualization. The user may input raw spike trains into DataHigh, perform dimensionality reduction using the DimReduce tool (left-hand side of dimensionality reduction), and visualize many 2-d projections of the extracted latent space using DataHigh. The user may also perform dimensionality reduction outside the DataHigh environment (right-hand side of dimensionality reduction), and input the identified latent variables into DataHigh for visualization.

    Article Snippet: The DataHigh software package for Matlab can be downloaded from http://www.ece.cmu.edu/~byronyu/software.shtml .

    Techniques:

    Main interface for DataHigh. Central panel: 2-d projection of 15-d single-trial neural trajectories extracted using GPFA from population activity recorded in premotor cortex during a standard delayed-reaching task for two different reach targets (green and blue) (section 3.2). Dots indicate time of target onset (red) and the go cue (cyan). Gray indicates baseline activity before stimulus onset. Preview panels (left and right of central panel): clicking and holding on a preview panel instantly rotates one of the two projection vectors that make up the central 2-d projection. The bottom right corner shows the percent variance of the latent space that is captured by the central 2-d projection. The Toolbar (far right) allows the user to access analysis tools described in section 2.3.

    Journal: Journal of neural engineering

    Article Title: DataHigh: Graphical user interface for visualizing and interacting with high-dimensional neural activity

    doi: 10.1088/1741-2560/10/6/066012

    Figure Lengend Snippet: Main interface for DataHigh. Central panel: 2-d projection of 15-d single-trial neural trajectories extracted using GPFA from population activity recorded in premotor cortex during a standard delayed-reaching task for two different reach targets (green and blue) (section 3.2). Dots indicate time of target onset (red) and the go cue (cyan). Gray indicates baseline activity before stimulus onset. Preview panels (left and right of central panel): clicking and holding on a preview panel instantly rotates one of the two projection vectors that make up the central 2-d projection. The bottom right corner shows the percent variance of the latent space that is captured by the central 2-d projection. The Toolbar (far right) allows the user to access analysis tools described in section 2.3.

    Article Snippet: The DataHigh software package for Matlab can be downloaded from http://www.ece.cmu.edu/~byronyu/software.shtml .

    Techniques: Activity Assay

    DimReduce allows the user to input raw spike trains, perform dimensionality reduction, choose the latent dimensionality, and upload the extracted latent variables to DataHigh. The large red “1” instructs the user where to complete the first step, which is to choose a bin width. Clicking the “Next Step” button increments the red step number and moves it to the next step. The example here shows a plot of leave-neuron-out prediction error versus candidate latent dimensionality. Using this metric, the optimal latent dimensionality is the dimensionality with the minimum cross-validated prediction error (starred on the plot).

    Journal: Journal of neural engineering

    Article Title: DataHigh: Graphical user interface for visualizing and interacting with high-dimensional neural activity

    doi: 10.1088/1741-2560/10/6/066012

    Figure Lengend Snippet: DimReduce allows the user to input raw spike trains, perform dimensionality reduction, choose the latent dimensionality, and upload the extracted latent variables to DataHigh. The large red “1” instructs the user where to complete the first step, which is to choose a bin width. Clicking the “Next Step” button increments the red step number and moves it to the next step. The example here shows a plot of leave-neuron-out prediction error versus candidate latent dimensionality. Using this metric, the optimal latent dimensionality is the dimensionality with the minimum cross-validated prediction error (starred on the plot).

    Article Snippet: The DataHigh software package for Matlab can be downloaded from http://www.ece.cmu.edu/~byronyu/software.shtml .

    Techniques:

    Screenshot of the GGobi graphical user interface while visualizing the same 15-d neural trajectories as shown in figure 4. The left panel allows the user to select which variables to display and which coefficients of the projection vectors to manipulate. The right panel displays a 2-d projection of the 15-d neural trajectories. Clicking and dragging in the right panel modifies the coefficients of the projection vectors selected in the left panel. (GGobi version 2.1.9)

    Journal: Journal of neural engineering

    Article Title: DataHigh: Graphical user interface for visualizing and interacting with high-dimensional neural activity

    doi: 10.1088/1741-2560/10/6/066012

    Figure Lengend Snippet: Screenshot of the GGobi graphical user interface while visualizing the same 15-d neural trajectories as shown in figure 4. The left panel allows the user to select which variables to display and which coefficients of the projection vectors to manipulate. The right panel displays a 2-d projection of the 15-d neural trajectories. Clicking and dragging in the right panel modifies the coefficients of the projection vectors selected in the left panel. (GGobi version 2.1.9)

    Article Snippet: To address this limitation, we developed a Matlab graphical user interface (called DataHigh) that allows the user to quickly and smoothly navigate through a continuum of different 2-d projections of the latent space.

    Techniques: