\name{generateExprVal.method.avgdiff} \alias{generateExprVal.method.avgdiff} \alias{generateExprVal.method.medianpolish} \alias{generateExprVal.method.liwong} \alias{generateExprVal.method.mas} \title{Generate an expression value from the probes informations} \description{ Generate an expression from the probes } \usage{ generateExprVal.method.avgdiff(probes, ...) generateExprVal.method.medianpolish(probes, ...) generateExprVal.method.liwong(probes, ...) generateExprVal.method.mas(probes, ...) } \arguments{ \item{probes}{a matrix of probe intensities with rows representing probes and columns representing samples. Usually \code{pm(probeset)} where \code{probeset} is a of class \code{\link[affy:ProbeSet-class]{ProbeSet}}.} \item{\dots}{extra arguments to pass to the respective function.} } \value{ A list containing entries: \item{exprs}{The expression values.} \item{se.exprs}{The standard error estimate.} } \examples{ data(SpikeIn) ##SpikeIn is a ProbeSets probes <- pm(SpikeIn) avgdiff <- generateExprVal.method.avgdiff(probes) medianpolish <- generateExprVal.method.medianpolish(probes) liwong <- generateExprVal.method.liwong(probes) playerout <- generateExprVal.method.playerout(probes) mas <- generateExprVal.method.mas(probes) concentrations <- as.numeric(sampleNames(SpikeIn)) plot(concentrations,avgdiff$exprs,log="xy",ylim=c(50,10000),pch="a",type="b") points(concentrations,2^medianpolish$exprs,pch="m",col=2,type="b",lty=2) points(concentrations,liwong$exprs,pch="l",col=3,type="b",lty=3) points(concentrations,playerout$exprs,pch="p",col=4,type="b",lty=4) points(concentrations,mas$exprs,pch="p",col=4,type="b",lty=4) } \seealso{ \code{\link[affy]{generateExprSet-methods}}, \code{\link[affy]{generateExprVal.method.playerout}}, \code{\link[affy]{fit.li.wong}} } \keyword{manip}