NMFOffset-class | R Documentation |
This class implements the Nonnegative Matrix Factorization with Offset model, required by the NMF with Offset algorithm.
## S4 method for signature 'NMFOffset'
initialize(.Object, ..., offset)
offset |
optional numeric vector used to initialise slot ‘offset’. |
.Object |
An object: see the Details section. |
... |
data to include in the new object. Named arguments correspond to slots in the class definition. Unnamed arguments must be objects from classes that this class extends. |
The NMF with Offset algorithm is defined by Badea
(2008) as a modification of the euclidean based NMF
algorithm from Lee2001
(see section Details and
references below). It aims at obtaining 'cleaner' factor
matrices, by the introduction of an offset matrix,
explicitly modelling a feature specific baseline –
constant across samples.
signature(object = "NMFOffset")
:
Computes the target matrix estimate for an NMFOffset
object.
The estimate is computed as:
W H + offset
signature(object = "NMFOffset")
: The
function offset
returns the offset vector from an
NMF model that has an offset, e.g. an NMFOffset
model.
signature(x = "NMFOffset", target =
"numeric")
: Generates a random NMF model with offset,
from class NMFOffset
.
The offset values are drawn from a uniform distribution
between 0 and the maximum entry of the basis and
coefficient matrices, which are drawn by the next
suitable rnmf
method, which is the
workhorse method rnmf,NMF,numeric
.
signature(object = "NMFOffset")
: Show
method for objects of class NMFOffset
Object of class NMFOffset
can be created using the
standard way with operator new
However, as for all NMF model classes – that extend
class NMF
, objects of class
NMFOffset
should be created using factory method
nmfModel
:
new('NMFOffset')
nmfModel(model='NMFOffset')
nmfModel(model='NMFOffset', W=w, offset=rep(1,
nrow(w)))
See nmfModel
for more details on how to use
the factory method.
The initialize method for NMFOffset
objects tries
to correct the initial value passed for slot
offset
, so that it is consistent with the
dimensions of the NMF
model: it will pad the
offset vector with NA values to get the length equal to
the number of rows in the basis matrix.
Badea L (2008). "Extracting gene expression profiles common to colon and pancreatic adenocarcinoma using simultaneous nonnegative matrix factorization." _Pacific Symposium on Biocomputing. Pacific Symposium on Biocomputing_, *290*, pp. 267-78. ISSN 1793-5091, <URL: http://www.ncbi.nlm.nih.gov/pubmed/18229692>.
Other NMF-model: NMFns-class
,
NMFstd-class
# create a completely empty NMF object
new('NMFOffset')
# create a NMF object based on random (compatible) matrices
n <- 50; r <- 3; p <- 20
w <- rmatrix(n, r)
h <- rmatrix(r, p)
nmfModel(model='NMFOffset', W=w, H=h, offset=rep(0.5, nrow(w)))
# apply Nonsmooth NMF algorithm to a random target matrix
V <- rmatrix(n, p)
## Not run: nmf(V, r, 'offset')
# random NMF model with offset
rnmf(3, 10, 5, model='NMFOffset')
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