fanny package:cluster R Documentation _F_u_z_z_y _A_n_a_l_y_s_i_s _C_l_u_s_t_e_r_i_n_g _D_e_s_c_r_i_p_t_i_o_n: Computes a fuzzy clustering of the data into 'k' clusters. _U_s_a_g_e: fanny(x, k, diss = inherits(x, "dist"), memb.exp = 2, metric = c("euclidean", "manhattan", "SqEuclidean"), stand = FALSE, iniMem.p = NULL, cluster.only = FALSE, keep.diss = !diss && !cluster.only && n < 100, keep.data = !diss && !cluster.only, maxit = 500, tol = 1e-15, trace.lev = 0) _A_r_g_u_m_e_n_t_s: x: data matrix or data frame, or dissimilarity matrix, depending on the value of the 'diss' argument. In case of a matrix or data frame, each row corresponds to an observation, and each column corresponds to a variable. All variables must be numeric. Missing values (NAs) are allowed. In case of a dissimilarity matrix, 'x' is typically the output of 'daisy' or 'dist'. Also a vector of length n*(n-1)/2 is allowed (where n is the number of observations), and will be interpreted in the same way as the output of the above-mentioned functions. Missing values (NAs) are not allowed. k: integer giving the desired number of clusters. It is required that 0 < k < n/2 where n is the number of observations. diss: logical flag: if TRUE (default for 'dist' or 'dissimilarity' objects), then 'x' is assumed to be a dissimilarity matrix. If FALSE, then 'x' is treated as a matrix of observations by variables. memb.exp: number r strictly larger than 1 specifying the _membership exponent_ used in the fit criterion; see the 'Details' below. Default: '2' which used to be hardwired inside FANNY. metric: character string specifying the metric to be used for calculating dissimilarities between observations. Options are '"euclidean"' (default), '"manhattan"', and '"SqEuclidean"'. Euclidean distances are root sum-of-squares of differences, and manhattan distances are the sum of absolute differences, and '"SqEuclidean"', the _squared_ euclidean distances are sum-of-squares of differences. Using this last option is equivalent (but somewhat slower) to computing so called "fuzzy C-means". If 'x' is already a dissimilarity matrix, then this argument will be ignored. stand: logical; if true, the measurements in 'x' are standardized before calculating the dissimilarities. Measurements are standardized for each variable (column), by subtracting the variable's mean value and dividing by the variable's mean absolute deviation. If 'x' is already a dissimilarity matrix, then this argument will be ignored. iniMem.p: numeric n * k matrix or 'NULL' (by default); can be used to specify a starting 'membership' matrix, i.e., a matrix of non-negative numbers, each row summing to one. cluster.only: logical; if true, no silhouette information will be computed and returned, see details. keep.diss, keep.data: logicals indicating if the dissimilarities and/or input data 'x' should be kept in the result. Setting these to 'FALSE' can give smaller results and hence also save memory allocation _time_. maxit, tol: maximal number of iterations and default tolerance for convergence (relative convergence of the fit criterion) for the FANNY algorithm. The defaults 'maxit = 500' and 'tol = 1e-15' used to be hardwired inside the algorithm. trace.lev: integer specifying a trace level for printing diagnostics during the C-internal algorithm. Default '0' does not print anything; higher values print increasingly more. _D_e_t_a_i_l_s: In a fuzzy clustering, each observation is "spread out" over the various clusters. Denote by u(i,v) the membership of observation i to cluster v. The memberships are nonnegative, and for a fixed observation i they sum to 1. The particular method 'fanny' stems from chapter 4 of Kaufman and Rousseeuw (1990) (see the references in 'daisy') and has been extended by Martin Maechler to allow user specified 'memb.exp', 'iniMem.p', 'maxit', 'tol', etc. Fanny aims to minimize the objective function SUM_[v=1..k] (SUM_(i,j) u(i,v)^r u(j,v)^r d(i,j)) / (2 SUM_j u(j,v)^r) where n is the number of observations, k is the number of clusters, r is the membership exponent 'memb.exp' and d(i,j) is the dissimilarity between observations i and j. Note that r -> 1 gives increasingly crisper clusterings whereas r -> Inf leads to complete fuzzyness. K&R(1990), p.191 note that values too close to 1 can lead to slow convergence. Further note that even the default, r = 2 can lead to complete fuzzyness, i.e., memberships u(i,v) == 1/k. In that case a warning is signalled and the user is advised to chose a smaller 'memb.exp' (=r). Compared to other fuzzy clustering methods, 'fanny' has the following features: (a) it also accepts a dissimilarity matrix; (b) it is more robust to the 'spherical cluster' assumption; (c) it provides a novel graphical display, the silhouette plot (see 'plot.partition'). _V_a_l_u_e: an object of class '"fanny"' representing the clustering. See 'fanny.object' for details. _S_e_e _A_l_s_o: 'agnes' for background and references; 'fanny.object', 'partition.object', 'plot.partition', 'daisy', 'dist'. _E_x_a_m_p_l_e_s: ## generate 10+15 objects in two clusters, plus 3 objects lying ## between those clusters. x <- rbind(cbind(rnorm(10, 0, 0.5), rnorm(10, 0, 0.5)), cbind(rnorm(15, 5, 0.5), rnorm(15, 5, 0.5)), cbind(rnorm( 3,3.2,0.5), rnorm( 3,3.2,0.5))) fannyx <- fanny(x, 2) ## Note that observations 26:28 are "fuzzy" (closer to # 2): fannyx summary(fannyx) plot(fannyx) (fan.x.15 <- fanny(x, 2, memb.exp = 1.5)) # 'crispier' for obs. 26:28 (fanny(x, 2, memb.exp = 3)) # more fuzzy in general data(ruspini) f4 <- fanny(ruspini, 4) stopifnot(rle(f4$clustering)$lengths == c(20,23,17,15)) plot(f4, which = 1) ## Plot similar to Figure 6 in Stryuf et al (1996) plot(fanny(ruspini, 5))