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Can I perform autocorrelation / lag analysis on a zoo object in R with non-regular time steps? If so, how?

The only other post I could find here dealt with regular time series. I have a sequence of observations taken at irregular time steps. For example, (t,y) = (0,2668), (36.62,2723), (42,2723),... where

  • t is the time in hours, and
  • y is the (categorical*) observation. ... *edited from original post

I would like to look for lag correlations daily (lag = 24) and weekly (lag = 168) to see whether certain categories of observation repeat at / near these lag intervals. Is there a way to do this in R? I created a zoo object for my data but have been unable to find any documentation concerning how to do this.

share|improve this question
I don't know much about zoo objects, but there is a method in the nlme package (corCAR1) for incorporating first-order autoregression in a model with unevenly spaced data (using g[n]ls or [n]lme). – Ben Bolker Jan 23 '12 at 13:33
Thanks! This looks like a great package that I can use on some other data I have to analyze. I didn't realize until after my initial post that I was being silly ... my observations are categorical. Nevertheless, while I don't think I can use this package on this data, I think I can use it later. – occasionalUser Jan 23 '12 at 17:11

You can use aggregate to convert your data into daily & weekly intervals, and then calculate the autocorrelation with whatever function does it for regular time series (say acf). e.g.:

# make a data set to play with
ts <- sort(runif(100)*168*3) # 100 observations over 3 weeks
ys <- runif(100)       # y values
z <- zoo(ys, order.by=ts)

# ** convert to daily/weekly. ?aggregate.zoo
# NOTE: can use ts instead of index(z)
z.daily <- aggregate(z,index(z) %/% 24)    # has 21 elements (one per day)
z.weekly <- aggregate(z,index(z) %/% 168)  # has 3 elements (one per week)

# Now compute correlation, lag 1 (index in z.daily/weekly)
daily.acf <- acf(z.daily, lag.max=1)[1]
weekly.acf <- acf(z.weekly, lag.max=1)[1]

The aggregate converts z to daily or weekly data where you sum all occurences for each day/week. It does the grouping by looking at index(z) %/% 24 (or 168) which is the integer part of the hour of observation divided by 24 (ie, the day it occurs).

Then the acf function calculates autocorrelation (with the lag being on indices of the vector, not on time).

I don't really know much about statistics, and one thing I noticed was that if you do:

weekly.acf <- acf(z.daily,lag.max=7)[7]

you get a different answer from when you calculate autocorrelation from z.weekly, because it's doing autocorrelation on daily data with a lag of 7 as opposed to weekly data with a lag of 1 -- so I'm not sure if what I'm doing is actualy what you want.

share|improve this answer
Hi. Thank you for your help. I played around with this and then realized I was being silly because my y observations are categorical, not continuous. Thus, I can't sum the observations to get meaningful data. I was hoping to find if any categories repeat at / near certain lags but this may be difficult since I don't have data measurements at those regularly-spaced time intervals. If I am working with continuous data in the future, I will remember this aggregate though. Thanks for your help! – occasionalUser Jan 23 '12 at 15:22

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