re. finding perimeter of a 2D shape

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Nithin
Nithin el 14 de Jun. de 2018
Comentada: Nithin el 15 de Jun. de 2018
Hi, I have coordinates of a 2D shape (x,y) and I am trying to determine the perimeter of the shape. I had initially tried the below code on circles etc, using the alpha shape function and perimeter with a given alpha radius of 2.5 and it worked fine. But my current shape I cant seem to use the alpha radius, as with alpha radius the perimeter is coming as zero. But without it works but I dont know if the result if correct as while plotting the figure seems a bit incomplete ie, the area within the contour is not completely filled. I am attaching the shape file, Thank you, Nithin
the code:
[Data.num] = xlsread('Profgraph.xls', 'sheet2');
nx50 = Data.num(1:end,1 ); ny50 = Data.num(1:end,2);
shp = alphaShape(nx50,ny50);
shp.Alpha=2.5;
plot(shp)
totalperim = perimeter(shp)

Respuesta aceptada

Anton Semechko
Anton Semechko el 14 de Jun. de 2018
% Contour coordinates
A=xlsread('Profgraph.xls','sheet2');
% Compute perimeter
N=size(A,1);
D=A(:,2:N)-A(:,1:(N-1));
D=sqrt(sum(D.^2,2)); % edge lenghts
P=sum(D); % perimeter
disp(P)
Answer comes out to 386.19
  2 comentarios
Nithin
Nithin el 14 de Jun. de 2018
Editada: Nithin el 14 de Jun. de 2018
Thank you for the alternative solution. Will look into this. :) Nithin There is some indexing error in the second line d = y-x. But hope to fix it.
Sorry, When I run the code with D=A(:,2:end)-A(:,1:(end-1));
I get around 585.71, Dont know what mistake I am doing.
Anton Semechko
Anton Semechko el 14 de Jun. de 2018
My bad:
% Compute perimeter
N=size(A,1);
D=A(2:N,:)-A(1:(N-1),:);
D=sqrt(sum(D.^2,2)); % edge lenghts
P=sum(D); % perimeter
disp(P)

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Más respuestas (1)

Steven Lord
Steven Lord el 14 de Jun. de 2018
Is an alpha value of 2.5 going to be appropriate for all data sets? Probably not.
You probably want to use the criticalAlpha and/or alphaSpectrum function to find an appropriate alpha value for your data set. Using the example from the alphaSpectrum page:
% Generate sample data and plot it
th = (pi/12:pi/12:2*pi)';
x1 = [reshape(cos(th)*(1:5), numel(cos(th)*(1:5)),1); 0];
y1 = [reshape(sin(th)*(1:5), numel(sin(th)*(1:5)),1); 0];
x = [x1; x1+15;];
y = [y1; y1];
plot(x,y,'.')
axis equal
hold on
% Build an alphaShape using the default alpha value
shp = alphaShape(x,y);
% Determine alpha values that produce unique shapes
alphaspec = alphaSpectrum(shp);
% Iterate through the alpha values. Show each one in turn
% with a 0.1 second pause between each shape
for k = 1:length(alphaspec)
shp.Alpha = alphaspec(k);
h = plot(shp);
title(sprintf('Alpha value of %.16f', alphaspec(k)));
pause(0.1)
delete(h)
end
The alpha values returned by criticalAlpha are in the alphaspec variable.

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