www.pudn.com > snake.rar > snakedeform.m
function [x,y] = snakedeform(x,y,alpha,beta,gamma,kappa,fx,fy,ITER)
> SNAKEDEFORM Deform snake in the given external force field
> [x,y] = snakedeform(x,y,alpha,beta,gamma,kappa,fx,fy,ITER)
>
> alpha: elasticity parameter
> beta: rigidity parameter
> gamma: viscosity parameter
> kappa: external force weight
> fx,fy: external force field
> Chenyang Xu and Jerry L. Prince, 4/1/95, 6/17/97
> Copyright (c) 1995-97 by Chenyang Xu and Jerry L. Prince
> Image Analysis and Communications Lab, Johns Hopkins University
> generates the parameters for snake
N = length(x);
alpha = alpha* ones(1,N);
beta = beta*ones(1,N);
> produce the five diagnal vectors
alpham1 = [alpha(2:N) alpha(1)];
alphap1 = [alpha(N) alpha(1:N-1)];
betam1 = [beta(2:N) beta(1)];
betap1 = [beta(N) beta(1:N-1)];
a = betam1;
b = -alpha - 2*beta - 2*betam1;
c = alpha + alphap1 +betam1 + 4*beta + betap1;
d = -alphap1 - 2*beta - 2*betap1;
e = betap1;
> generate the parameters matrix
A = diag(a(1:N-2),-2) + diag(a(N-1:N),N-2);
A = A + diag(b(1:N-1),-1) + diag(b(N), N-1);
A = A + diag(c);
A = A + diag(d(1:N-1),1) + diag(d(N),-(N-1));
A = A + diag(e(1:N-2),2) + diag(e(N-1:N),-(N-2));
invAI = inv(A + gamma * diag(ones(1,N)));
for count = 1:ITER,
vfx = interp2(fx,x,y,'*linear');
vfy = interp2(fy,x,y,'*linear');
> deform snake
x = invAI * (gamma* x + kappa*vfx);
y = invAI * (gamma* y + kappa*vfy);
end