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I’ve been trying to convert the following xts data to a ts data such that forecast() can then be applied.

I have been following the steps of an answer to another question but I can’t seem to make it work for my data. Here’s what I did so far

> head(xts.XYZ)
                    x
2012-08-01 07:23:36 1
2012-08-01 08:59:40 1
2012-08-01 09:57:56 2
2012-08-01 11:07:18 2
2012-08-01 11:16:48 1
2012-08-01 11:40:55 1

_

Convert to regular rate by taking the observed data and dividing it by the number of "seconds" between 
observations
> sec.rate <- lag(xts.XYZ) / diff(index(xts.XYZ))

**Warning messages:
1: Incompatible methods ("Ops.xts", "/.difftime") for "/" 
2: In lag(xts.XYZ)/diff(index(xts.XYZ)) :
  longer object length is not a multiple of shorter object length**

Generate time series for the regular dates
> dummy.dates <- seq(from=index(xts.XYZ)[1], to=tail(index(xts.XYZ), 1), by=31*24*60*60*60)

Combine series with observed rate
> m.xts <- merge(sec.rate, dummy.dates)

Interpolate the sales
> m.xts.interpolate <- na.approx(m.xts)

Convert to regular time series
> m.ts <- ts(m.xts.interpolate, freq=31*24*60*60*60, start=c(2012, 1))

Clean up dimnames in case of stl forecast 
> dim(m.ts) <- NULL

Fit TS to an ETS model 
> fit <- ets(m.ts)

**Error in etsmodel(y, errortype[i], trendtype[j], seasontype[k], damped[l],  : 
  function cannot be evaluated at initial parameters**

What am I doing wrong?

Thank you,

Giulia

share|improve this question
    
This may well be a duplicate of stackoverflow.com/questions/3897814/… or stackoverflow.com/questions/10423551/… –  Andrie Jul 29 '14 at 15:39

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