R: BCVI-Chou-Su-Lai (CSL) index

B_CSL.IDX {BayesCVI}

R Documentation

BCVI-Chou-Su-Lai (CSL) index

Description

Compute Bayesian cluster validity index (BCVI) from two to kmax groups using Chou-Su-Lai (CSL) as the underlying cluster validity index (CVI) and Dirichlet prior parameters of the user's choice. The full detail of BCVI can be found in the paper Wiroonsri and Preedasawakul (2024).

Usage

B_CSL.IDX(x, kmax, method = "kmeans", nstart = 100, alpha = "default", mult.alpha = 1/2)

Arguments

`x`	a numeric data frame or matrix where each column is a variable to be used for cluster analysis and each row is a data point.
`kmax`	a maximum number of clusters to be considered.
`method`	a character string indicating which clustering method to be used (`"kmeans"`, `"hclust_complete"`, `"hclust_average"`, `"hclust_single"`). The default is `"kmeans"`.
`nstart`	a maximum number of initial random sets for kmeans for `method = "kmeans"`. The default is `100`.
`alpha`	Dirichlet prior parameters `\alpha_2,...,\alpha_k` where `\alpha_k` is the parameter corresponding to "the probability of having k groups" (selecting each `\alpha_k` between 0 to 30 is recommended and using the other parameter `mult.alpha` to be its multiplier. The default is `"default"`.
`mult.alpha`	the power `s` from `n^s` to be multiplied to the Dirichlet prior parameters `alpha` (selecting `mult.alpha` in `[0,1)` is recommended). The default is `\frac{1}{2}`.

Details

BCVI-CSL is defined as follows.

Let

r_k(\bf x) = \dfrac{\max_j CSL(j)- CSL(k)}{\sum_{i=2}^K (\max_j CSL(j) - CSL(i))}.

Assume that

f({\bf x}|{\bf p}) = C({\bf p}) \prod_{k=2}^Kp_k^{nr_k(x)}

represents the conditional probability density function of the dataset given \bf p, where C({\bf p}) is the normalizing constant. Assume further that {\bf p} follows a Dirichlet prior distribution with parameters {\bm \alpha} = (\alpha_2,\ldots,\alpha_K). The posterior distribution of \bf p still remains a Dirichlet distribution with parameters (\alpha_2+nr_2({\bf x}),\ldots,\alpha_K+nr_K({\bf x})).

The BCVI is then defined as

BCVI(k) = E[p_k|{\bf x}] = \frac{\alpha_k + nr_k({\bf x})}{\alpha_0+n}

where \alpha_0 = \sum_{k=2}^K \alpha_k.

The variance of p_k can be computed as

Var(p_k|{\bf x}) = \dfrac{(\alpha_k + nr_k(x))(\alpha_0 + n -\alpha_k-nr_k(x))}{(\alpha_0 + n)^2(\alpha_0 + n +1 )}.

Value

`BCVI`	the dataframe where the first and the second columns are the number of groups `k` and BCVI`(k)`, respectively, for `k` from `2` to `kmax`.
`VAR`	the data frame where the first and the second columns are the number of groups `k` and the variance of `p_k`, respectively, for `k` from `2` to `kmax`.
`CVI`	the data frame where the first and the second columns are the number of groups `k` and the original CSL`(k)`, respectively, for `k` from `2` to `kmax`.

Author(s)

Nathakhun Wiroonsri and Onthada Preedasawakul

References

C. H. Chou, M. C. Su, E. Lai, "A new cluster validity measure and its application to image compression," Pattern Anal Applic, 7, 205-220 (2004).

N. Wiroonsri, O. Preedasawakul, "A Bayesian cluster validity index", arXiv:2402.02162, 2024.

Examples


library(BayesCVI)

# The data included in this package.
data = B2_data[,1:2]

# alpha
aalpha = c(5,5,5,20,20,20,0.5,0.5,0.5)

B.CSL = B_CSL.IDX(x = scale(data), kmax=10, method = "kmeans",
                nstart = 100, alpha = aalpha, mult.alpha = 1/2)

# plot the BCVI

pplot = plot_BCVI(B.CSL)
pplot$plot_index
pplot$plot_BCVI
pplot$error_bar_plot

[Package BayesCVI version 1.0.0 Index]