RmaPlm: The RmaPlm class
In aroma.affymetrix: Analysis of Large Affymetrix Microarray Data Sets
RmaPlm R Documentation
The RmaPlm class
Description
Package: aroma.affymetrix
Class RmaPlm
Object
~~|
~~+--ParametersInterface
~~~~~~~|
~~~~~~~+--Model
~~~~~~~~~~~~|
~~~~~~~~~~~~+--UnitModel
~~~~~~~~~~~~~~~~~|
~~~~~~~~~~~~~~~~~+--MultiArrayUnitModel
~~~~~~~~~~~~~~~~~~~~~~|
~~~~~~~~~~~~~~~~~~~~~~+--ProbeLevelModel
~~~~~~~~~~~~~~~~~~~~~~~~~~~|
~~~~~~~~~~~~~~~~~~~~~~~~~~~+--RmaPlm
Directly known subclasses:
ExonRmaPlm, HetLogAddCnPlm, HetLogAddPlm, HetLogAddSnpPlm, RmaCnPlm, RmaSnpPlm
public abstract static class RmaPlm
extends ProbeLevelModel
This class represents the log-additive model part of the Robust Multichip
Analysis (RMA) method described in Irizarry et al (2003).
Usage
RmaPlm(..., flavor=c("affyPLM", "oligo"))
Arguments
...
Arguments passed to ProbeLevelModel.
flavor
A character string specifying what model fitting algorithm
to be used. This makes it possible to get identical estimates as other
packages.
Fields and Methods
Methods:
No methods defined.
Methods inherited from ProbeLevelModel:
calculateResidualSet, calculateWeights, fit, getAsteriskTags, getCalculateResidualsFunction, getChipEffectSet, getProbeAffinityFile, getResidualSet, getRootPath, getWeightsSet
Methods inherited from MultiArrayUnitModel:
getListOfPriors, setListOfPriors, validate
Methods inherited from UnitModel:
findUnitsTodo, getAsteriskTags, getFitSingleCellUnitFunction, getParameters
Methods inherited from Model:
as.character, fit, getAlias, getAsteriskTags, getDataSet, getFullName, getName, getPath, getRootPath, getTags, setAlias, setTags
Methods inherited from ParametersInterface:
getParameterSets, getParameters, getParametersAsString
Methods inherited from Object:
$, $<-, [[, [[<-, as.character, attach, attachLocally, clearCache, clearLookupCache, clone, detach, equals, extend, finalize, getEnvironment, getFieldModifier, getFieldModifiers, getFields, getInstantiationTime, getStaticInstance, hasField, hashCode, ll, load, names, objectSize, print, save, asThis
Model
For a single unit group, the log-additive model of RMA is:
log_2(y_{ik}) = \beta_i + \alpha_k + \varepsilon_{ik}
where \beta_i are the chip effects for arrays i=1,...,I,
and \alpha_k are the probe affinities for probes k=1,...,K.
The \varepsilon_{ik} are zero-mean noise with equal variance.
The model is constrained such that \sum_k{\alpha_k} = 0.
Note that all PLM classes must return parameters on the intensity scale.
For this class that means that \theta_i = 2^\beta_i and
\phi_k = 2^\alpha_k are returned.
Different flavors of model fitting
There are a few differ algorithms available for fitting the same
probe-level model. The default and recommended method
(flavor="affyPLM") uses the implementation in the
preprocessCore package which fits the model parameters robustly
using an M-estimator (the method used to be in affyPLM).
Alternatively, other model-fitting algorithms are available.
The algorithm (flavor="oligo") used by the oligo package,
which originates from the affy packages, fits the model using
median polish, which is a non-robust estimator. Note that this algorithm
does not constraint the probe-effect parameters to multiply to one on
the intensity scale. Since the internal function does not return these
estimates, we can neither rescale them.
Author(s)
Henrik Bengtsson, Ken Simpson
References
Irizarry et al. Summaries of Affymetrix GeneChip probe level data.
NAR, 2003, 31, e15.
aroma.affymetrix documentation built on May 29, 2024, 4:32 a.m.
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| RmaPlm | R Documentation |
The RmaPlm class
Description
Package: aroma.affymetrix
Class RmaPlm
Object
~~|
~~+--ParametersInterface
~~~~~~~|
~~~~~~~+--Model
~~~~~~~~~~~~|
~~~~~~~~~~~~+--UnitModel
~~~~~~~~~~~~~~~~~|
~~~~~~~~~~~~~~~~~+--MultiArrayUnitModel
~~~~~~~~~~~~~~~~~~~~~~|
~~~~~~~~~~~~~~~~~~~~~~+--ProbeLevelModel
~~~~~~~~~~~~~~~~~~~~~~~~~~~|
~~~~~~~~~~~~~~~~~~~~~~~~~~~+--RmaPlm
Directly known subclasses:
ExonRmaPlm, HetLogAddCnPlm, HetLogAddPlm, HetLogAddSnpPlm, RmaCnPlm, RmaSnpPlm
public abstract static class RmaPlm
extends ProbeLevelModel
This class represents the log-additive model part of the Robust Multichip Analysis (RMA) method described in Irizarry et al (2003).
Usage
RmaPlm(..., flavor=c("affyPLM", "oligo"))
Arguments
... |
Arguments passed to |
flavor |
A |
Fields and Methods
Methods:
No methods defined.
Methods inherited from ProbeLevelModel:
calculateResidualSet, calculateWeights, fit, getAsteriskTags, getCalculateResidualsFunction, getChipEffectSet, getProbeAffinityFile, getResidualSet, getRootPath, getWeightsSet
Methods inherited from MultiArrayUnitModel:
getListOfPriors, setListOfPriors, validate
Methods inherited from UnitModel:
findUnitsTodo, getAsteriskTags, getFitSingleCellUnitFunction, getParameters
Methods inherited from Model:
as.character, fit, getAlias, getAsteriskTags, getDataSet, getFullName, getName, getPath, getRootPath, getTags, setAlias, setTags
Methods inherited from ParametersInterface:
getParameterSets, getParameters, getParametersAsString
Methods inherited from Object:
$, $<-, [[, [[<-, as.character, attach, attachLocally, clearCache, clearLookupCache, clone, detach, equals, extend, finalize, getEnvironment, getFieldModifier, getFieldModifiers, getFields, getInstantiationTime, getStaticInstance, hasField, hashCode, ll, load, names, objectSize, print, save, asThis
Model
For a single unit group, the log-additive model of RMA is:
log_2(y_{ik}) = \beta_i + \alpha_k + \varepsilon_{ik}
where \beta_i are the chip effects for arrays i=1,...,I,
and \alpha_k are the probe affinities for probes k=1,...,K.
The \varepsilon_{ik} are zero-mean noise with equal variance.
The model is constrained such that \sum_k{\alpha_k} = 0.
Note that all PLM classes must return parameters on the intensity scale.
For this class that means that \theta_i = 2^\beta_i and
\phi_k = 2^\alpha_k are returned.
Different flavors of model fitting
There are a few differ algorithms available for fitting the same
probe-level model. The default and recommended method
(flavor="affyPLM") uses the implementation in the
preprocessCore package which fits the model parameters robustly
using an M-estimator (the method used to be in affyPLM).
Alternatively, other model-fitting algorithms are available.
The algorithm (flavor="oligo") used by the oligo package,
which originates from the affy packages, fits the model using
median polish, which is a non-robust estimator. Note that this algorithm
does not constraint the probe-effect parameters to multiply to one on
the intensity scale. Since the internal function does not return these
estimates, we can neither rescale them.
Author(s)
Henrik Bengtsson, Ken Simpson
References
Irizarry et al. Summaries of Affymetrix GeneChip probe level data.
NAR, 2003, 31, e15.
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