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I have two sets of rasters, both with same x,y,z extent. I've made two stacks: stacka and stackb. I want to calculate the Pearson correlation coefficient (PCC) in each grid cell between two stacks along the time line. I've made a simpler example (forgive me with the dumb way of creating rasters)

a1<-c(1,1,1,1,1,1,1,1,NA)
a2<-c(2,2,2,2,1,2,2,NA,2)
a3<-c(3,3,3,3,3,2,NA,3,3)
b1<-c(2,2,2,2,2,2,2,2,2)
b2<-c(3,3,3,3,3,3,3,3,3)
b3<-c(4,4,4,4,4,4,4,4,4)
matrixa1<-matrix(a1,3,3)
matrixa2<-matrix(a2,3,3)
matrixa3<-matrix(a3,3,3)
matrixb1<-matrix(b1,3,3)
matrixb2<-matrix(b2,3,3)
matrixb3<-matrix(b3,3,3)
rastera1<-raster(matrixa1)
rastera2<-raster(matrixa2)
rastera3<-raster(matrixa3)
rasterb1<-raster(matrixb1)
rasterb2<-raster(matrixb2)
rasterb3<-raster(matrixb3)
stacka<-stack(rastera1,rastera2,rastera3)
stackb<-stack(rasterb1,rasterb2,rasterb3)

a_bar<-calc(stacka,mean,na.rm=TRUE)
b_bar<-calc(stackb,mean,na.rm=TRUE)
numerator<-setValues(rastera1,0)
denominator1<-numerator
denominator2<-numerator
for(i in 1:noflayers){
  numerator<-numerator+(stacka[[i]]-a_bar)*(stackb[[i]]-b_bar)
  denominator1<-denominator1+(stacka[[i]]-a_bar)^2
  denominator2<-denominator2+(stackb[[i]]-b_bar)^2
}
pearsoncoeff<-numerator/sqrt(denominator1*denominator2)

In the end I have a raster with each grid cell filled with PCC. The problem is, data a is intermittent, some grids are NA in some layers. So the end product has some blanks. My algorithm spits out "NA" when it encounters NA. I'd need some option like na.rm=TRUE in the calculation, so the output would calculate whatever months have values.

The method I can think of is to use is.na(stacka[[nlayers]][nrows,ncols]==FALSE and find corresponding pair in stackb, but that's on cell basis,which'd take enormous amount of computer time.

share|improve this question
    
Two things: (a) no reproducible example which makes helping extremely difficult, (b) is.na==FALSE is not working (try it out), esa[!is.na(esa)] could be what you want. – Henrik May 22 '13 at 20:34
1  
@EDU Did tou try something like this – Paulo Cardoso May 22 '13 at 20:47
    
@PauloCardoso It's the right direction, however it doesn't deal with NAs either. Lucas' modification below works great. Thanks very much! – EDU May 23 '13 at 17:07
up vote 1 down vote accepted

I edited Paulo's recommended approach to deal with NAs in the computation and it seems to work fast on a bunch of tests, including the dataset above:

stack.correlation <- function(stack1, stack2, cor.method){
  # output template
  cor.map <- raster(stack1)
  # combine stacks
  T12 <- stack(stack1,stack2)
  rnlayers=nlayers(T12)
  # the function takes a vector, partitions it in half, then correlates
  # the two sections, returning the correlation coefficient. 
  stack.sequence.cor <- function(myvec,na.rm=T){
    myvecT1<-myvec[1:(length(myvec)/2)]
    myvecT2<-myvec[(length(myvec)/2+1):length(myvec)]
    return(cor(myvecT1,myvecT2, method =  cor.method, use="complete.obs"))
  }
  # apply the function above to each cell and write the correlation
  # coefficient to the output template. 
  cor.map <- stackApply(T12, indices = rep(1, rnlayers), 
                        fun = stack.sequence.cor, na.rm = FALSE)

  return(cor.map)
}
cor_r=stack.correlation(stacka, stackb, "pearson") 
share|improve this answer
    
Fantastic! I have been scratching my head on Paulo's method because it doesn't deal with NAs either. Your modified version works like a charm! – EDU May 23 '13 at 17:05
    
Nice to see it working! – Paulo Cardoso May 24 '13 at 8:23

A somewhat simpler approach:

library(raster)
a1 <- raster(matrix(c(1,1,1,1,1,1,1,1,NA),3,3))
a2 <- raster(matrix(c(2,2,2,2,1,2,2,NA,2), 3, 3))
a3 <- raster(matrix(c(3,3,3,3,3,2,NA,3,3), 3, 3))
b1 <- raster(matrix(c(2,2,2,2,2,2,2,2,2), 3, 3))
b2 <- raster(matrix(c(3,3,3,3,3,3,3,3,3), 3, 3))
b3 <- raster(matrix(c(4,4,4,4,4,4,4,4,4), 3, 3))
sa <- stack(a1, a2, a3)
sb <- stack(b1, b2, b3)


funcal <- function(xy) {
    xy <- na.omit(matrix(xy, ncol=2))
    if (ncol(xy) < 2) {
        NA
    } else {
        cor(xy[, 1], xy[, 2])
    }
}

s <- stack(sa, sb)
calc(s, funcal)
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