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I have a high res binary image which looks something like:

enter image description here

I'm trying to compute the major axis which should be slightly rotated to the right and eventually get the axis of orientation of the object

A post here (in matlab) suggests a way of doing this is computing the covariance matrix for the datapoints and finding their eigenvalues/eigenvectors

I am trying to implement something similar in R

%% MATLAB CODE Calculate axis and draw

[M N] = size(Ibw);
[X Y] = meshgrid(1:N,1:M);

%Mass and mass center
m = sum(sum(Ibw));
x0 = sum(sum(Ibw.*X))/m;
y0 = sum(sum(Ibw.*Y))/m;

#R code

d = dim(im)
M = d[1]
N = d[2]

t = meshgrid(M,N)
X = t[[2]]
Y = t[[1]]
m = sum(im);
x0 = sum(im %*% X)/m;
y0 = sum(im %*% Y)/m;

meshgrid <-function(r,c){
  return(list(R=matrix(rep(1:r, r), r, byrow=T), 
          C=matrix(rep(1:c, c), c)))

However, computing m , x0 and y0 takes too long in R.

Does anyone know of an implementation in R?

share|improve this question
can you use system.time() and find out which line is taking more time? –  Nishanth Apr 17 '13 at 4:45
Its the matrix multiplication. My image is 2736x3648 –  by0 Apr 17 '13 at 4:47
which operating system? –  Nishanth Apr 17 '13 at 5:05
Mac OSX x64 mountain lion –  by0 Apr 17 '13 at 5:24
Since your image is made of straight edges, you could also use the Hough transform to detect them. –  Vincent Zoonekynd Apr 17 '13 at 9:07

2 Answers 2

up vote 2 down vote accepted

Computing the variance matrix directly, with var, takes 1/3 of a second.

# Sample data
M <- 2736
N <- 3648
im <- matrix( FALSE, M, N );
y <- as.vector(row(im))
x <- as.vector(col(im))
im[ abs( y - M/2 ) < M/3 & abs( x - N/2 ) < N/3 ] <- TRUE
theta <- runif(1, -pi/12, pi/12)
xy <- cbind(x+1-N/2,y+1-M/2) %*% matrix(c( cos(theta), sin(theta), -sin(theta), cos(theta) ), 2, 2)
#plot(xy[,1]+N/2-1, xy[,2]+M/2-1); abline(h=c(1,M),v=c(1,N))
f <- function(u, lower, upper) pmax(lower,pmin(round(u),upper))
im[] <- im[cbind( f(xy[,2] + M/2 - 1,1,M), f(xy[,1] + N/2 - 1,1,N) )]
image(1:N, 1:M, t(im), asp=1)

# Variance matrix of the points in the rectangle
i <- which(im)
V <- var(cbind( col(im)[i], row(im)[i] ))
# Their eigenvectors
u <- eigen(V)$vectors
abline( M/2-N/2*u[2,1]/u[1,1], u[2,1]/u[1,1], lwd=5 )
abline( M/2-N/2*u[2,2]/u[1,2], u[2,2]/u[1,2] )

Binary image, with major and minor axes

share|improve this answer
Clean. Concise. Fast. Thank you! –  by0 Apr 17 '13 at 18:01

Try replacing the default Rblas.dll with a suitable one from this link.

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