Detecting cycle maxima (peaks) in noisy time series (In R?) [closed]

I want to extract maxima of cycles in time series data. An example of this data is the solar flare time series (~11 year cycle, between 9 & 14 years). The cycles don't repeat at a perfect interval, and the peaks aren't always the same height.

I found a recent paper describing an algorithm for this, and the paper actually uses solar flares as an example (Figure 5, Scholkmann et al. 2012, Algorithms). I was hoping that this algorithm, or an equally effective algorithm, was available as an R package.

Link to Scholkmann paper on "automatic multiscale-based peak detection" http://www.mdpi.com/1999-4893/5/4/588

I've tried the "turningpoints" function in the "pastecs" package but it seemed to be too sensitive (i.e., detected too many peaks). I thought of trying to smooth the time series first, but I'm not sure if this is the best approach (I'm no expert).

Thanks for any pointers.

EDIT

I found the "wmtsa" package helpful. I added my own little function to facilitate the searching of maxima once the wmtsa::wavCWTPeaks got it close.

``````PeakCycle <- function(Data=as.vector(sunspots), SearchFrac=0.02){
# using package "wmtsa"
#the SearchFrac parameter just controls how much to look to either side
#of wavCWTPeaks()'s estimated maxima for a bigger value
#see dRange
Wave <- wavCWT(Data)
WaveTree <- wavCWTTree(Wave)
WavePeaks <- wavCWTPeaks(WaveTree, snr.min=5)
WavePeaks_Times <- attr(WavePeaks, which="peaks")[,"iendtime"]

NewPeakTimes <- c()
dRange <- round(SearchFrac*length(Data))
for(i in 1:length(WavePeaks_Times)){
NewRange <- max(c(WavePeaks_Times[i]-dRange, 1)):min(c(WavePeaks_Times[i]+dRange, length(Data)))
NewPeakTimes[i] <- which.max(Data[NewRange])+NewRange[1]-1
}

return(matrix(c(NewPeakTimes, Data[NewPeakTimes]), ncol=2, dimnames=list(NULL, c("PeakIndices", "Peaks"))))
}

dev.new(width=6, height=4)
par(mar=c(4,4,0.5,0.5))
plot(seq_along(as.vector(sunspots)), as.vector(sunspots), type="l")
Sunspot_Ext <- PeakCycle()
points(Sunspot_Ext, col="blue", pch=20)
``````

Here's the figure:

-
Since this question isn't so much about R but about statistical methods, I think it's better suited for CrossValidated than for SO. –  RoyalTS May 2 '13 at 16:36

closed as off topic by mnel, Pete, Ed Woodcock, Sindre Sorhus, Soner GönülMay 3 '13 at 21:13

Questions on Stack Overflow are expected to relate to programming within the scope defined by the community. Consider editing the question or leaving comments for improvement if you believe the question can be reworded to fit within the scope. Read more about reopening questions here.If this question can be reworded to fit the rules in the help center, please edit the question.

If the peaks are almost periodic (with a slowly fluctuating period), as in the sunspot example, you can use the Hilbert transform or the empirical mode decomposition to smooth the time series.

``````library(EMD)
x <- as.vector(sunspots)
r <- emd(x)
# Keep 5 components -- you may need more, or less.
y <- apply( r\$imf[,5:10], 1, sum ) + mean(r\$residue)
plot(x, type="l", col="grey")
lines( y, type="l", lwd=2)
n <- length(y)
i <- y[2:(n-1)] > y[1:(n-2)] & y[2:(n-1)] > y[3:n]
points( which(i), y[i], pch=15 )
``````

-
Thanks for your suggestion. I eventually found the "wmsta" package, which was very helpful. –  rbatt May 2 '13 at 20:35
``````PeakCycle <- function(Data=as.vector(sunspots), SearchFrac=0.02){
# using package "wmtsa"
#the SearchFrac parameter just controls how much to look to either side
#of wavCWTPeaks()'s estimated maxima for a bigger value
#see dRange
Wave <- wavCWT(Data)
WaveTree <- wavCWTTree(Wave)
WavePeaks <- wavCWTPeaks(WaveTree, snr.min=5)
WavePeaks_Times <- attr(WavePeaks, which="peaks")[,"iendtime"]

NewPeakTimes <- c()
dRange <- round(SearchFrac*length(Data))
for(i in 1:length(WavePeaks_Times)){
NewRange <- max(c(WavePeaks_Times[i]-dRange, 1)):min(c(WavePeaks_Times[i]+dRange, length(Data)))
NewPeakTimes[i] <- which.max(Data[NewRange])+NewRange[1]-1
}

return(matrix(c(NewPeakTimes, Data[NewPeakTimes]), ncol=2, dimnames=list(NULL, c("PeakIndices", "Peaks"))))
}

dev.new(width=6, height=4)
par(mar=c(4,4,0.5,0.5))
plot(seq_along(as.vector(sunspots)), as.vector(sunspots), type="l")
Sunspot_Ext <- PeakCycle()
points(Sunspot_Ext, col="blue", pch=20)
``````
-