Description Usage Arguments Details Value Slots References Examples
Fuzzy C-Means clustering Algorithm (Bezdek, 1984)
1 2 | fuzzy.CM(X, K, m, max.iteration, threshold, member.init, RandomNumber = 0,
print.result = 0)
|
X |
dataset (matrix/data frame) |
K |
number of cluster |
m |
fuzzyfier |
max.iteration |
maximum iteration for convergence |
threshold |
convergence criteria |
member.init |
membership object or matrix that will be used for initialized |
RandomNumber |
random number for start initializing |
print.result |
print result (9/1) |
This function perform Fuzzy C-Means algorithm by Bezdek (1984). Fuzzy C-Means is one of fuzzy clustering methods to clustering dataset become K cluster. Number of cluster (K) must be greater than 1. To control the overlaping or fuzziness of clustering, parameter m must be specified. Maximum iteration and threshold is specific number for convergencing the cluster. Random Number is number that will be used for seeding to firstly generate fuzzy membership matrix.
Clustering will produce fuzzy membership matrix (U) and fuzzy cluster centroid (V). The greatest value of membership on data point will determine cluster label. Centroid or cluster center can be use to interpret the cluster. Both membership and centroid produced by calculating mathematical distance. Fuzzy C-Means calculate distance with Euclideans norm.
Fuzzy Clustering object
centroid
centroid matrix
distance
distance matrix
func.obj
function objective
call.func
called function
fuzzyfier
fuzzyness parameter
method.fuzzy
method of fuzzy clustering used
member
membership matrix
hard.label
hard.label
Balasko, B., Abonyi, J., & Feil, B. (2002). Fuzzy Clustering and Data Analysis Toolbox: For Use with Matlab. Veszprem, Hungary.
Bezdek, J. C., Ehrlich, R., & Full, W. (1984). FCM: The Fuzzy C-Means Clustering Algorithm. Computers and Geosciences Vol 10, 191-203
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