Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to remove NAs from my data frame by interpolation with na.approx() but can't remove all of the NAs.

My data frame is a 4096x4096 with 270.15 as flag for non valid value. I need data to be continous in all points to feed a meteorological model. Yesterday I asked, and obtained an answer, on how to replace values in a data frame based in another data frame. But after that I came to na.approx() and then decided to replace the 270.15 values with NA and try na.approx() to interpolate data. But the question is why na.approx() does not replace all NAs.

This is what I am doing:

  • Read the original hdf file with hdf5load
  • Subset the data frame (4094x4096)
  • Substitute flag value with NA

    > sst4[sst4 == 270.15 ] = NA
    
  • Check first column (or any other)

    > summary(sst4[,1])
    
    Min. 1st Qu.  Median    Mean 3rd Qu.    Max.    NA's
    271.3   276.4   285.9   285.5   292.3   302.8  1345.0
    
  • Run na.approx

    > sst4=na.approx(sst4,na.rm="FALSE")
    
  • Check first column

    > summary(sst4[,1]) 
    Min. 1st Qu.  Median    Mean 3rd Qu.    Max.    NA's
    271.3   276.5   286.3   285.9   292.6   302.8   411.0
    

As you can see 411 NA's have not been removed. Why? Do they all correspond to leading/ending column values?

head(sst4[,1])
[1] NA NA NA NA NA NA
tail(sst4[,1])
[1] NA NA NA NA NA NA

Is it needed by na.approx to have valid values before and after NA to interpolate? Do I need to set any other na.approx option?

Thank you very much

share|improve this question

3 Answers 3

up vote 9 down vote accepted

A small, reproducible example:

library(zoo)
set.seed(1)
m <- matrix(runif(16, 0, 100), nrow = 4)
missing_values <- sample(16, 7)
m[missing_values] <- NA
m
         [,1]     [,2]      [,3]     [,4]
[1,] 26.55087 20.16819 62.911404 68.70228
[2,] 37.21239       NA  6.178627 38.41037
[3,]       NA       NA        NA       NA
[4,] 90.82078 66.07978        NA       NA

na.approx(m)
         [,1]     [,2]      [,3]     [,4]
[1,] 26.55087 20.16819 62.911404 68.70228
[2,] 37.21239 35.47206  6.178627 38.41037
[3,] 64.01658 50.77592        NA       NA
[4,] 90.82078 66.07978        NA       NA

m[4, 4] <- 50
na.approx(m)
         [,1]     [,2]      [,3]     [,4]
[1,] 26.55087 20.16819 62.911404 68.70228
[2,] 37.21239 35.47206  6.178627 38.41037
[3,] 64.01658 50.77592        NA 44.20519
[4,] 90.82078 66.07978        NA 50.00000

Yup, looks like you do need the start/end values of columns to be known or the interpolation doesn't work. Can you guess values for your boundaries?

ANOTHER EDIT: So by default, you need the start and end values of columns to be known. However it is possible to get na.approx to always fill in the blanks by passing rule = 2. See Felix's answer. You can also use na.fill to provide a default value, as per Gabor's comment. Finally, you can interpolate boundary conditions in two directions (see below) or guess boundary conditions.


EDIT: A further thought. Since na.approx is only interpolating in columns, and your data is spacial, perhaps interpolating in rows would be useful too. Then you could take the average.

na.approx fails when whole columns are NA, so we create a bigger dataset.

set.seed(1)
m <- matrix(runif(64, 0, 100), nrow = 8)
missing_values <- sample(64, 15)
m[missing_values] <- NA

Run na.approx both ways.

by_col <- na.approx(m)
by_row <- t(na.approx(t(m)))

Find out the best guess.

default <- 50
best_guess <- ifelse(is.na(by_row), 
  ifelse(
    is.na(by_col), 
    default,              #neither known
    by_col                #only by_col known
  ), 
  ifelse(
    is.na(by_col), 
    by_row,               #only by_row known
    (by_row + by_col) / 2 #both known
  )
)
share|improve this answer
    
Thanks Richie. I'll try to guess values for the boundaries; as the spatial extension of my sst database is much bigger than the met model domain I will use I'm not specially worried about values on the boundaries. What I actually need is to fill the NA values in the central region of the data frame. –  pacomet Sep 6 '11 at 11:08
    
Whoever downvoted me, please can you leave a comment explaining what you didn't like. If you don't provide feedback then I can't improve the answer. –  Richie Cotton Sep 6 '11 at 13:11
    
-1 not true that you need start and end values. End points can be extended as in Felix's answer or in na.fill . –  G. Grothendieck Sep 6 '11 at 14:34
    
Hi, in this case I don't think it is necessary but I can try and look for the results. Thanks, your answer was the right one for me. –  pacomet Sep 6 '11 at 14:38
    
@G. Grothendieck: Point taken; have clarified answer. –  Richie Cotton Sep 6 '11 at 17:14

na.approx() follows the approx() function in only interpolating values, not extrapolating them, by default. However, as described in the help page for approx(), you can specify rule = 2 to extrapolate as a constant value of the nearest extreme. Following on from Richie Cotton's example:

na.approx(m, rule = 2)
         [,1]     [,2]      [,3]     [,4]
[1,] 26.55087 20.16819 62.911404 68.70228
[2,] 37.21239 35.47206  6.178627 38.41037
[3,] 64.01658 50.77592  6.178627 38.41037
[4,] 90.82078 66.07978  6.178627 38.41037

Equivalently, you can use "last observation carry forward" explicitly.

na.locf(na.approx(m))
## "first observation carry backwards" too:
na.locf(na.locf(na.approx(m)), fromLast = TRUE)
share|improve this answer
    
Thanks for your answer. It works but maybe is not the good one for my data. As the data are sea surface temperature maybe it is not a good idea to extrapolate as constant value in case NA data is over sea (although most NA cases are over land points) where smooth transition between grid points is what you usually find. –  pacomet Sep 6 '11 at 11:21

I think you should try to set na.rm=TRUE

From the docs

na.rm logical. Should leading NAs be removed?

http://www.oga-lab.net/RGM2/func.php?rd_id=zoo:na.approx

share|improve this answer
    
Hi Henrik. If I set na.rm=TRUE then I get a 3818x4096 data frame and I need to retain all 4096x4096 values. –  pacomet Sep 6 '11 at 9:36
    
Hmm, how about skipping the fancy interpolation and make a simple loop that when seeing a NA copies the last non-NA value? –  Henrik Sep 6 '11 at 9:42
    
I am new to R and will have to look for loop syntax, I am trying to manage with basic commands. How do I retain the last non-NA value? What happens if the first value in the column is NA? Also, I prefer a smooth transition between data values. These are sea surface temperature values and NAs are points over land where the met model needs "realistic" values to avoid numerical problems when solving the equations. Thanks for your suggestion. –  pacomet Sep 6 '11 at 9:51
    
I understand your problem, but I guess it will not be very accurate land temperatures if you interpolate from SST. Maybe, take a look for inverse distance weighted interpolation and pretend your SST data is point measurments?? –  Henrik Sep 6 '11 at 10:05
    
I'm not worried about the accuracy because the model knows where are land/sea points and it just needs a smooth transition. But I will look for inverse distance weighted interpolation. Thanks. –  pacomet Sep 6 '11 at 10:12

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.