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I'm wondering if there is a function/package (package: zoo?) that will allow me to calculate daily (or other) means of a time series for a second series of values. There are several questions on SO that deal with the creation of e.g. daily means, but none that allow grouping by an independent series.

As of now, I have been doing this in 2+ steps by first calculating means via the aggregate function, followed by a match to a full sequence of values. The following example is a typical situation for me where there are some days that do not contain any values:

set.seed(1)
n <- 500
x <- cumsum(runif(n, min=99360*0.1, max=99360*2))
datetime <- as.POSIXlt(x, origin="2000-01-01", tz="GMT")
y <- cumsum(runif(n, min=-1, max=1))
df <- data.frame(datetime, y)
df <- df[-sample(n, n*0.2),] #remove 20%
plot(y ~ datetime, df, t="l")

#calculate daily means
df$date <- as.Date(df$datetime)
daymean <- aggregate(y ~ date, data=df, mean)

#create daily means ts including all possible dates
date.ran <- range(df$date)
df2 <- data.frame(date=seq(date.ran[1], date.ran[2], by="days"), y=NaN)
MATCH <- match(daymean$date, df2$date)
df2$y[MATCH] <- daymean$y

plot(y ~ datetime, df, cex=0.5, pch=20)
lines(as.POSIXlt(df2$date), df2$y, t="o", col=rgb(1,0,0,0.5))
legend("topright", legend=c("Orig.", "daily mean"), col=c(1,rgb(1,0,0,0.5)), lty=c(NA, 1), pch=c(20, 1))

enter image description here

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2 Answers 2

set.seed(1)
n <- 500
x <- cumsum(runif(n, min=99360*0.1, max=99360*2))
datetime <- as.POSIXlt(x, origin="2000-01-01", tz="GMT")
y <- cumsum(runif(n, min=-1, max=1))
#df <- data.frame(datetime, y)
#df <- df[-sample(n, n*0.2),] #remove 20%

#You should set the values to NA instead of removing them
df <- data.frame(datetime, y)
df[sample(n, n*0.2), "y"] <- NA#remove 20%

library(xts)
myxts <- as.xts(df$y,order.by=df$datetime)
ep <- endpoints(myxts,'days')
daymeans <- period.apply(myxts, INDEX=ep, FUN=mean, na.rm=TRUE)

plot(myxts,cex=0.5, pch=20, type="p")
lines(daymeans)
points(daymeans, col="red")

enter image description here

However, this calculates POSIXct times, which you may want to convert to dates or round to noon for plotting.

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1) zoo Here is how it would be done with zoo. z2, the end result, is the series of means, one per day. We read columns 1 and 2 of df into a zoo object z and create a grid, g, which is a zero width zoo object of dates. Then compute the means, m, and merge the means and the grid.

library(zoo)
z <- read.zoo(df[1:2], FUN = identity)

m <- aggregate(z, as.Date, mean)
g <- zoo(, seq(start(m), end(m), by = "day"))
z2 <- merge(m, g, fill = NaN)

coredata(z2) is the data and time(z2) is the dates.

2) zoo & magrittr Another way of expressing this, using zoo and the magrittr package, is with this pipeline:

library(zoo)
library(magrittr)

df[1:2] %>%
    read.zoo(FUN = identity) %>%
    aggregate(as.Date, mean) %>%
    function(x) merge(x, zoo(, seq(start(x), end(x), by = "day")), fill = NaN)

REVISED. New understanding is that we wish to create an object like df2. Added magrittr approach. Some minor impovements.

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The reason I would like to maintain the full time series in my df2 object is that I would like to perform some correlations between different time series later on, and these different time series do not always have coincident values. Thus, being able to compare like-dates is essential. –  Marc in the box Feb 27 at 14:57

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