Questions

Why is it difficult to cluster data in higher dimensional spaces?

Why is it difficult to cluster data in higher dimensional spaces?

Four problems need to be overcome for clustering in high-dimensional data: Multiple dimensions are hard to think in, impossible to visualize, and, due to the exponential growth of the number of possible values with each dimension, complete enumeration of all subspaces becomes intractable with increasing dimensionality.

What are the limitations of DBSCAN?

1) DBSCAN algorithm fails in case of varying density clusters. 2) Fails in case of neck type of dataset.

How many dimensions can DBSCAN handle?

three dimensions
It has DBSCAN, and it can do three dimensions, too.

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What is the best clustering algorithm for high-dimensional data?

Graph-based clustering (Spectral, SNN-cliq, Seurat) is perhaps most robust for high-dimensional data as it uses the distance on a graph, e.g. the number of shared neighbors, which is more meaningful in high dimensions compared to the Euclidean distance.

Does DBSCAN work for high dimensional data?

Grid-based DBSCAN is one of the recent improved algorithms aiming at facilitating efficiency. However, the performance of grid-based DBSCAN still suffers from two problems: neighbour explosion and redundancies in merging, which make the algorithms infeasible in high-dimensional space.

What are the strengths and weaknesses of DBSCAN?

DBSCAN is resistant to noise and can handle clusters of various shapes and sizes. They are a lot of clusters that DBSCAN can find that K-mean would not be able to find.

What are the pros and cons of DBSCAN?

If clusters are very different in terms of in-cluster densities, DBSCAN is not well suited to define clusters….Pros and Cons of DBSCAN

  • Does not require to specify number of clusters beforehand.
  • Performs well with arbitrary shapes clusters.
  • DBSCAN is robust to outliers and able to detect the outliers.
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What is DBSCAN in data mining?

DBSCAN is a density-based clustering algorithm that works on the assumption that clusters are dense regions in space separated by regions of lower density. It can identify clusters in large spatial datasets by looking at the local density of the data points.

Can tSNE be used for clustering?

tSNE, (t-distributed stochastic neighbor embedding) is a clustering technique that has a similar end result to PCA, (principal component analysis). The focus of many clustering algorithms is to identify similarity in a high-dimensional dataset in such a way that dimensionality can be reduced.

What is the difference between DBSCAN and HDBSCAN?

While DBSCAN needs a minimum cluster size and a distance threshold epsilon as user-defined input parameters, HDBSCAN* is basically a DBSCAN implementation for varying epsilon values and therefore only needs the minimum cluster size as single input parameter.

What is the recommended minPts value for DBSCAN clustering?

Edit: Or tips on other clustering algorithms that work on high dimensional data with an existing python implementation. First of all, with minPts=2 you aren’t actually doing DBSCAN clustering, but the result will degenerate into single-linkage clustering. You really should use minPts=10 or higher.

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Can the DBSCAN algorithm handle 3 dimensions?

I am assuming that the DBSCAN algorithm can handle 3 dimensions, by having the e value be a radius metric and the distance between points measured by euclidean separation. If anyone has tried implementing this and would like to share that would also be greatly appreciated, thanks. You can use sklearn for DBSCAN.

Graph-based clustering (Spectral, SNN-cliq, Seurat) is perhaps most robust for high-dimensional data as it uses the distance on a graph, e.g. the number of shared neighbors, which is more meaningful in high dimensions compared to the Euclidean distance.

Should I use minPts=2 or Epsilon for DBSCAN?

First of all, with minPts=2 you aren’t actually doing DBSCAN clustering, but the result will degenerate into single-linkage clustering. You really should use minPts=10 or higher. Unfortunately, you didn’t bother to tell us what distance metric you actually use! Epsilon really depends heavily on your data set and metric.