Array indices must be positive integers or logical values

4 visualizaciones (últimos 30 días)
Jonas Damsbo
Jonas Damsbo el 8 de En. de 2020
Comentada: the cyclist el 9 de En. de 2020
I have this MatLab code where I want to run a metropolis algorithm.
In my s rho is a matrix 12x12 and L is a matrix 12x12. m0 is a vector 1x12.
When I run my code I got the error 'Array indices must be positive integers or logical values' in hfuncval(1) where I want to compute s in the starting point.
How can come throught that?
Thank
s = -0.5.*(rho + L);
% (4) Metropolis algorithm
K = 10000; %Number of samples
pts = zeros(length(m0),K); %Array with sample output points
hfuncval = zeros(K); %Array with function value outputs
pts(:,1) = m0; %Set starting points
hfuncval(1) = s(pts(:,1)); %Compute function in starting point
step = 0.5; %Set step length
%Start sampling
for k = 1:K
[ptpert] = pts(:,k-1) + (2*rand(2,1)).*step; % propose perturbed point
hfuncpert = hfunc(ptpert); % Compute function in perturbed point
u = rand; % Generate random number in [0,1]
if u < hfuncpert/hfuncval(k-1) % accepting new points
% if u < exp(log(hfuncpert)-log(hfuncval(k-1)))
pts(:,k) = ptpert;
hfuncval(k) = hfuncpert;
else % Rejecting new points
pts(:,k) = pts(:,k-1);
hfuncval(k) = hfuncval(k-1);
end
end
The theory of the algorithm is:
a.png
  6 comentarios
Jonas Damsbo
Jonas Damsbo el 9 de En. de 2020
Okay, now I have doing this.
s = @(rho,L) -0.5.*(rho + L);
rho = (m-m0)'.*Cm.*(m-m0);
L = (y-g)'.*C_d.*(y-g);
sigma = s(rho,L);
% (4) Metropolis algorithm
K = 10000; %Number of samples
pts = zeros(length(m0),K); %Array with sample output points
hfuncval = zeros(1,K); %Array with function value outputs
pts(:,1) = m0; %Set starting points
hfuncval(1) = sigma(1,1); %Compute function in starting point
step = 0.5; %Set step length
%Start sampling
for k = 2:K
ptpert = pts(:,k-1) + (2*rand(12,1)-1)*step; % propose perturbed point
hfuncpert = sigma(ptpert); % Compute function in perturbed point
u = rand; % Generate random number in [0,1]
if u < hfuncpert/hfuncval(k-1) % accepting new points
% if u < exp(log(hfuncpert)-log(hfuncval(k-1)))
pts(:,k) = ptpert;
hfuncval(k) = hfuncpert;
else % Rejecting new points
pts(:,k) = pts(:,k-1);
hfuncval(k) = hfuncval(k-1);
end
end
But I have again the error 'Array indices must be positive integers or logical values.'
Now in this line:
hfuncpert = sigma(ptpert);
Rik
Rik el 9 de En. de 2020
Look at the values of ptpert at that point. Use the debugging tools to step through your code line by line.

Iniciar sesión para comentar.

Respuestas (1)

the cyclist
the cyclist el 8 de En. de 2020
In this line:
hfuncval(k) = hfuncval(k-1);
in the first iteration of the for loop, k == 1, so you are attempting to access the "zeroth" element of the array hfuncval, which does not exist.
  9 comentarios
Jonas Damsbo
Jonas Damsbo el 9 de En. de 2020
Okay so, I have changed a little bit in my code:
s = @(rho,L) -0.5.*(rho + L);
rho = (m-m0)'.*Cm.*(m-m0);
L = (y-g)'.*C_d.*(y-g);
sigma = s(rho,L);
% (4) Metropolis algorithm
K = 10000; %Number of samples
pts = zeros(length(m0),K); %Array with sample output points
hfuncval = zeros(1,K); %Array with function value outputs
pts(:,1) = m0; %Set starting points
hfuncval(1) = sigma(1,1); %Compute function in starting point
step = 0.5; %Set step length
%Start sampling
for k = 2:K
ptpert = pts(:,k-1) + (2*rand(12,1)-1)*step; % propose perturbed point
hfuncpert = sigma(ptpert); % Compute function in perturbed point
u = rand; % Generate random number in [0,1]
if u < hfuncpert/hfuncval(k-1) % accepting new points
% if u < exp(log(hfuncpert)-log(hfuncval(k-1)))
pts(:,k) = ptpert;
hfuncval(k) = hfuncpert;
else % Rejecting new points
pts(:,k) = pts(:,k-1);
hfuncval(k) = hfuncval(k-1);
end
end
But I have again the error 'Array indices must be positive integers or logical values.'
Now in this line:
hfuncpert = sigma(ptpert);
the cyclist
the cyclist el 9 de En. de 2020
I have to admit I have not reviewed your code closely.
But the error makes it pretty clear, right? ptpert is not a positive integer, so it cannot be used as an index into a vector. For example, if ptpert is 1.5, what does sigma(1.5) represent?
It looks like the line
ptpert = pts(:,k-1) + (2*rand(12,1)-1)*step;
is where you go wrong. That doesn't look like it is going to be an integer.

Iniciar sesión para comentar.

Categorías

Más información sobre Phased Array Design and Analysis en Help Center y File Exchange.

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by