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jpclust

Jarvis-Patrick Clustering


Description

Fast C++ implementation of the Jarvis-Patrick clustering which first builds a shared nearest neighbor graph (k nearest neighbor sparsification) and then places two points in the same cluster if they are in each other's nearest neighbor list and they share at least kt nearest neighbors.

Usage

jpclust(x, k, kt, ...)

Arguments

x

a data matrix/data.frame (Euclidean distance is used), a precomputed dist object or a kNN object created with kNN().

k

Neighborhood size for nearest neighbor sparsification. If x is a kNN object then k may be missing.

kt

threshold on the number of shared nearest neighbors (including the points themselves) to form clusters. Range: [1, k]

...

additional arguments are passed on to the k nearest neighbor search algorithm. See kNN() for details on how to control the search strategy.

Details

Following the original paper, the shared nearest neighbor list is constructed as the k neighbors plus the point itself (as neighbor zero). Therefore, the threshold kt needs to be in the range [1, k].

Fast nearest neighbors search with kNN() is only used if x is a matrix. In this case Euclidean distance is used.

Value

A object of class general_clustering with the following components:

cluster

A integer vector with cluster assignments. Zero indicates noise points.

type

name of used clustering algorithm.

param

list of used clustering parameters.

Author(s)

Michael Hahsler

References

R. A. Jarvis and E. A. Patrick. 1973. Clustering Using a Similarity Measure Based on Shared Near Neighbors. IEEE Trans. Comput. 22, 11 (November 1973), 1025-1034. doi: 10.1109/T-C.1973.223640

See Also

Other clustering functions: dbscan(), extractFOSC(), hdbscan(), optics(), sNNclust()

Examples

data("DS3")

# use a shared neighborhood of 20 points and require 12 shared neighbors
cl <- jpclust(DS3, k = 20, kt = 12)
cl

plot(DS3, col = cl$cluster+1L, cex = .5)
# Note: JP clustering does not consider noise and thus,
# the sine wave points chain clusters together.

# use a precomputed kNN object instead of the original data.
nn <- kNN(DS3, k = 30)
nn

cl <- jpclust(nn, k = 20, kt = 12)
cl

# cluster with noise removed (use low pointdensity to identify noise)
d <- pointdensity(DS3, eps = 25)
hist(d, breaks = 20)
DS3_noiseless <- DS3[d > 110,]

cl <- jpclust(DS3_noiseless, k = 20, kt = 10)
cl

plot(DS3_noiseless, col = cl$cluster+1L, cex = .5)

dbscan

Density-Based Spatial Clustering of Applications with Noise (DBSCAN) and Related Algorithms

v1.1-10
GPL (>= 2)
Authors
Michael Hahsler [aut, cre, cph], Matthew Piekenbrock [aut, cph], Sunil Arya [ctb, cph], David Mount [ctb, cph]
Initial release
2022-01-14

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