# Calculating hourly averages from a multi-year timeseries

I have a dataset filled with the average windspeed per hour for multiple years. I would like to create an 'average year', in which for each hour the average windspeed for that hour over multiple years is calculated. How can I do this without looping endlessly through the dataset? Ideally, I would like to just loop through the data once, extracting for each row the right month, day, and hour, and adding the windspeed from that row to the right row in a dataframe where the aggregates for each month, day, and hour are gathered. Is it possible to do this without extracting the month, day, and hour, and then looping over the complete average-year data.frame to find the right row?

Some example data:

``````data.multipleyears <- data.frame(
DATETIME = c("2001-01-01 01:00:00", "2001-05-03 09:00:00", "2007-01-01 01:00:00", "2008-02-29 12:00:00"),
Windspeed = c(10, 5, 8, 3)
)
``````

Which I would like to aggregate in a dataframe like this:

``````average.year <- data.frame(
DATETIME = c("01-01 00:00:00", "01-01 01:00:00", ..., "12-31 23:00:00")
Aggregate.Windspeed = (100, 80, ...)
)
``````

From there, I can go on calculating the averages, etc. I have probably overlooked some command, but what would be the right syntax for something like this (in pseudocode):

`````` for(i in 1:nrow(data.multipleyears) {
average.year\$Aggregate.Windspeed[
where average.year\$DATETIME(month, day, hour) == data.multipleyears\$DATETIME[i](month, day, hour)]  <- average.year\$Aggregate.Windspeed + data.multipleyears\$Windspeed[i]
}
``````

Or something like that. Help is appreciated!

-
Do you work in meteorology? I work at the KNMI in the Netherlands... –  Paul Hiemstra Apr 4 '12 at 9:17

I predict that ddply and the plyr package are going to be your best friend :). I created a 30 year dataset with hourly random windspeeds between 1 and 10 ms:

``````begin_date = as.POSIXlt("1990-01-01", tz = "GMT")
# 30 year dataset
dat = data.frame(dt = begin_date + (0:(24*30*365)) * (3600))
dat = within(dat, {
speed = runif(length(dt), 1, 10)
unique_day = strftime(dt, "%d-%m")
})
dt unique_day    speed
1 1990-01-01 00:00:00      01-01 7.054124
2 1990-01-01 01:00:00      01-01 2.202591
3 1990-01-01 02:00:00      01-01 4.111633
4 1990-01-01 03:00:00      01-01 2.687808
5 1990-01-01 04:00:00      01-01 8.643168
6 1990-01-01 05:00:00      01-01 5.499421
``````

To calculate the daily normalen (30 year average, this term is much used in meteorology) over this 30 year period:

``````library(plyr)
res = ddply(dat, .(unique_day),
summarise, mean_speed = mean(speed), .progress = "text")
unique_day mean_speed
1      01-01   5.314061
2      01-02   5.677753
3      01-03   5.395054
4      01-04   5.236488
5      01-05   5.436896
6      01-06   5.544966
``````

This takes just a few seconds on my humble two core AMD, so I suspect just going once through the data is not needed. Multiple of these `ddply` calls for different aggregations (month, season etc) can be done separately.

-
Awesome! I used your example and got the right result. Now I'm going to try to actually understand your code... I heard of the plyr package, but couldn't find out how to use it. Thanks! –  Gerrit Jan Apr 4 '12 at 9:32
Take a look at www.jstatsoft.org/v40/i01 for paper on plyr. It explains plyr very well. –  Paul Hiemstra Apr 4 '12 at 9:56

You can use `substr` to extract the part of the date you want, and then use `tapply` or `ddply` to aggregate the data.

``````tapply(
data.multipleyears\$Windspeed,
substr( data.multipleyears\$DATETIME, 6, 19),
mean
)
# 01-01 01:00:00 02-29 12:00:00 05-03 09:00:00
#              9              3              5

library(plyr)
ddply(
data.multipleyears,
.(when=substr(DATETIME, 6, 19)),
summarize,
Windspeed=mean(Windspeed)
)
#             when Windspeed
# 1 01-01 01:00:00         9
# 2 02-29 12:00:00         3
# 3 05-03 09:00:00         5
``````
-
I am really fond of converting DATETIME to a POSIXlt object and than creating a new column using strftime. See my example below. –  Paul Hiemstra Apr 4 '12 at 9:17
Thanks for the answer, Vincent. I actually used Paul's answer as my solution, but I guess yours will work just as fine -- but I'd still have to loop over all of the dateparts, right? That is not necessary in Paul's answer. –  Gerrit Jan Apr 4 '12 at 9:33
No, no loop is needed. The only difference with Paul's answer is that he used POSIXct objects (that is cleaner), while I used strings. –  Vincent Zoonekynd Apr 4 '12 at 9:43