baart.m

这是在网上下的一个东东

function [A,b,x] = baart(n) 
%BAART Test problem: Fredholm integral equation of the first kind. 
% 
% [A,b,x] = baart(n) 
% 
% Discretization of a first-kind Fredholm integral equation with 
% kernel K and right-hand side g given by 
%    K(s,t) = exp(s*cos(t)) ,  g(s) = 2*sinh(s)/s , 
% and with integration intervals  s in [0,pi/2] ,  t in [0,pi] . 
% The solution is given by 
%    f(t) = sin(t) . 
% 
% The order n must be even. 
  
% Reference: M. L. Baart, "The use of auto-correlation for pseudo- 
% rank determination in noisy ill-conditioned linear least-squares 
% problems", IMA J. Numer. Anal. 2 (1982), 241-247. 
 
% Discretized by the Galerkin method with orthonormal box functions; 
% one integration is exact, the other is done by Simpson's rule. 
 
% Per Christian Hansen, IMM, 09/16/92. 
 
% Check input. 
if (rem(n,2)~=0), error('The order n must be even'), end 
 
% Generate the matrix. 
hs = pi/(2*n); ht = pi/n; c = 1/(3*sqrt(2)); 
A = zeros(n,n); ihs = [0:n]'*hs; n1 = n+1; nh = n/2; 
f3 = exp(ihs(2:n1)) - exp(ihs(1:n)); 
for j=1:n 
  f1 = f3; co2 = cos((j-.5)*ht); co3 = cos(j*ht); 
  f2 = (exp(ihs(2:n1)*co2) - exp(ihs(1:n)*co2))/co2; 
  if (j==nh) 
    f3 = hs*ones(n,1); 
  else 
    f3 = (exp(ihs(2:n1)*co3) - exp(ihs(1:n)*co3))/co3; 
  end 
  A(:,j) = c*(f1 + 4*f2 + f3); 
end 
 
% Generate the right-hand side. 
if (nargout>1) 
  si(1:2*n) = [.5:.5:n]'*hs; si = sinh(si)./si; 
  b = zeros(n,1); 
  b(1) = 1 + 4*si(1) + si(2); 
  b(2:n) = si(2:2:2*n-2) + 4*si(3:2:2*n-1) + si(4:2:2*n); 
  b = b*sqrt(hs)/3; 
end 
 
% Generate the solution. 
if (nargout==3) 
  x = -diff(cos([0:n]'*ht))/sqrt(ht); 
end