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All,

I'm looking for a reliable, unsupervised way to detect change points in a relatively short vector. Consider the following two examples:

v1 = c(0.299584,0.314446,0.357783,0.388896,0.410417,0.427182,0.450383,0.466671,0.474884,0.474749,0.493566,0.500374,0.522482,0.529851,0.538387,0.577901,0.610939,0.639383,0.662433,0.692656,0.720543,0.738255,0.748055,0.7591,0.770595,0.781811,0.794479,0.794588,0.789448,0.77667,0.765406,0.75152,0.740408,0.726898,0.720766,0.709445,0.69896,0.687508,0.673382,0.65795,0.639214,0.620445,0.590047,0.561773,0.526807,0.486848,0.439681,0.387545,0.313369,0.282872,0.279908,0.271836,0.269088,0.262727,0.259782)

v2 = c(0.081309,0.206263,0.429069,0.511859,0.565194,0.578792,0.56919,0.51985,0.432563,0.193907,0.0771,0.086603,0.18303,0.177608,0.169706,0.260917,0.292062,0.2979,0.263249,0.270576,0.250422,0.25219,0.182878,0.080623,0.079443,0.088944,0.087623,0.126403,0.155563,0.273942,0.312054,0.370195,0.357087,0.336452,0.300574,0.243105,0.243105,0.25593,0.227401,0.218047,0.15857,0.157727,0.139801,0.125742,0.129142,0.142166,0.142166,0.136748,0.107755,0.064377,0.072801,0.060093,0.103441,0.111704,0.124544)

If you look at

plot(v1,type='l') 

and

plot(v2,type='l')

you can see that for v1 I'd like to detect a change around index = 28, and for v2 I'd like to detect changes at the index values of 8, 11, 18, 25, 32, and 51. So far I've experimented with the Bayesian Change Point algorithm, which works OK in terms of identifying where inflection points are likely (low posterior probability regions), but still forces me to rely on visual inspection for the final determination:

install.packages('bcp')
library(bcp)

test = bcp(v1,w0=0.2,p0=0.01)
plot(v1,type='l')
par(new=TRUE)
plot(test$posterior.prob,type='l',col=2)

test = bcp(v2,w0=0.2,p0=0.01)
plot(v2,type='l')
par(new=TRUE)
plot(test$posterior.prob,type='l',col=2)

Is there a way to automate an unsupervised selection of estimates of multiple change points in this kind of data? Maybe I'm just futilely searching for a replacement for human intuition :P I also looked at the changepoint package, but it doesn't seem to be designed for this kind of data.

Thanks, Aaron

share|improve this question
    
Have you seen the questions about peak detection or local minima/maxima on s.o. - e.g. stackoverflow.com/questions/6836409/… ? – thelatemail Sep 5 '13 at 23:55
    
I like using pastecs::turnpoints , with or without presmoothing, depending on the quality of the input data. – Carl Witthoft Sep 6 '13 at 11:51
up vote 3 down vote accepted

So, this is a simple solution. You can modify the parameters to give you back different (more/fewer, sensitive/insensitive) inflection points (or areas, in the case of your data).

plot(v2, type="l", col="darkblue", lwd=2)
# v2 <- smooth(v2, kind="3")  # optional
lines(v2, lwd=1, col="red")
d2 <- diff(v2)
d2 <- d2>0
d2 <- d2*2 -1 
k <- 5
cutoff <- 10
scores <- sapply(k:(length(d2)-k), FUN=function(i){
  score <- abs(mean(-d2[ i-1:k ], na.rm=T) + mean(d2[ i+0:k ], na.rm=T))
})


scores <- sapply(k:(length(v2)-k), FUN=function(i){
  left <- (v2[sapply(i-1:k, max, 1) ]<v2[i])*2-1
  right <- (v2[sapply(i+1:k, min, length(v2)) ]<v2[i])*2-1

  score <- abs(sum(left) + sum(right))
})

inflections <- (k:(length(v2)-k))[scores>=cutoff]

plot(v2, type="l")
abline(v=inflections, col="red", lwd=3)
print(inflections) #  6 11 18 25 32 (missed 51, if you make cutoff=8 it'll catch it...)
share|improve this answer
    
this is a really simple, elegant solution to this problem. thanks! – Aaron Sep 7 '13 at 1:12
    
PS: is this in a paper somewhere, or just something you came up with on the fly – Aaron Sep 7 '13 at 1:21
    
I just came up with it. – Hillary Sanders Sep 7 '13 at 1:43
    
good stuff, thanks again. – Aaron Sep 7 '13 at 8:09

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