| phyclust.em.step {phyclust} | R Documentation |
This is a single EM-step of phyclust.
phyclust.em.step(X, ret.phyclust = NULL, K = NULL, Eta = NULL,
Mu = NULL, pi = NULL, kappa = NULL, Tt = NULL,
substitution.model = NULL, identifier = NULL, code.type = NULL,
label = NULL)
X |
nid/sid matrix with N rows/sequences and L columns/sites. |
ret.phyclust |
an object with the class |
K |
number of clusters. |
Eta |
proportion of subpopulations, eta_k, length = |
Mu |
centers of subpopulations, dim = K*L, each row is a center. |
pi |
equilibrium probabilities, each row sums to 1. |
kappa |
transition and transversion bias. |
Tt |
total evolution time, t. |
substitution.model |
substitution model. |
identifier |
identifier. |
code.type |
code type. |
label |
label of sequences for semi-supervised clustering. |
X should be a numerical matrix containing sequence data that
can be transfered by code2nid or code2sid.
Either input ret.phyclust or all other arguments for this function.
ret.phyclust can be obtained either from an EM iteration of
phyclust or from a M step of phyclust.m.step.
If label is inputted, the label information will be used
the EM-step, even the ret.phyclust is the result of unsupervised
clustering.
This function returns an object with class phyclust.
Wei-Chen Chen wccsnow@gmail.com
Phylogenetic Clustering Website: http://snoweye.github.io/phyclust/
phyclust,
phyclust.e.step,
phyclust.m.step.
## Not run: library(phyclust, quiet = TRUE) set.seed(1234) EMC.1 <- .EMC EMC.1$EM.iter <- 1 # the same as EMC.1 <- .EMControl(EM.iter = 1) X <- seq.data.toy$org ret.1 <- phyclust(X, 2, EMC = EMC.1) ret.2 <- phyclust.em.step(X, ret.phyclust = ret.1) str(ret.2) # For semi-supervised clustering. semi.label <- rep(0, nrow(X)) semi.label[1:3] <- 1 ret.3 <- phyclust.em.step(X, ret.phyclust = ret.1, label = semi.label) str(ret.3) ## End(Not run)