Inspect3D Tutorial: Run K-Means: Difference between revisions
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==Running a K-Means Test== | ==Running a K-Means Test== | ||
==Interpreting K-Means Results== | |||
Revision as of 18:00, 5 June 2023
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Utility of K-Means
When analyzing biomechanical signals, we often realize that a number of individual traces are similar. It can be useful to describe these traces as belonging to the same group, or cluster. This potentially allows us to simplify our analysis or to pick a single trace as being "representative" of the whole cluster. Because clustering is an unsupervised learning technique, it does not require any specific knowledge or set of training labels from the user. This, in turn, makes clustering useful for data exploration. For more information check out the K-means clustering page. This tutorial will showcase how to interpret the results of clustering between a normal group and an osteoarthritis group.
Overview of Tutorial
This tutorial works off the Principal Component Analysis Tutorial, and assumes a good understanding of using PCA in Inspect3D. This tutorial uses overground walking data from roughly 100 subjects divided into two conditions, normal control and osteoarthritis (moderate to severe). This data set is included in the Demo folder of your Inspect3D installation (e.g., C:\Program Files\C-Motion\Inspect3D\Demo). This is the same data as the PCA Tutorial.