Make a 4D contour plot.

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Prince Essemiah
Prince Essemiah el 25 de Oct. de 2022
Comentada: Walter Roberson el 27 de Oct. de 2022
I'm trying to visualize the efficiency map (ITEn) of an engine from the sweep of three (3) inputs. See code below.The results in my workspace is good. However, plotting this using isosurface has me in doubt. The color on the plot, likewise the colorbar and their corresponding ITEn do not match the ITEn in the workspace. For example, the indicated point in the figure shows ITEn between 37% and 40%, but actual simulation results in 34.65%.
How can I plot this properly?
IVC_sweep = round(linspace(-180,-121,50));
EVO_sweep = round(linspace(105,165,50));
FM_sweep = round(linspace(70,200,50));
for i = 1:length(IVC_sweep)
for ii = 1:length(FM_sweep)
for iii = 1:length(EVO_sweep)
IVC = IVC_sweep(i);
EVO = EVO_sweep(iii);
IVO = -11;
EGR = 30;
Qf = FM_sweep(ii); %200;
Tin = 313;
pin = 200;
RPM = 1200*2*pi/60;
SOI = -40.3;
u_in = [IVC IVO EVO EGR Qf Tin pin RPM SOI];
[CA10(i,ii,iii), CA50(i,ii,iii), IMEPg(i,ii,iii), ITEn(i,ii,iii),...
Pmax(i,ii,iii), MPRR(i,ii,iii), TEVO(i,ii,iii)] = MX13_3(u_in);
end
end
end
figure;
levellist = linspace(30,50,10); % Range of ITEn
for k = 1:length(levellist)
level = levellist(k);
p = patch(isosurface(IVC_sweep,FM_sweep,EVO_sweep,ITEn,level));
p.FaceVertexCData = level;
p.FaceColor = 'flat';
p.EdgeColor = 'none';
p.FaceAlpha = 0.3;
xlabel('IVC [{\circ}CA aTDC]');
ylabel('m_{fuel} [mg/cyc]');
zlabel('EVO [{\circ}CA aTDC]');
title('ITEn [%]')
grid on
end
view(3)
hc=colorbar;
rotate3d on
  5 comentarios
Prince Essemiah
Prince Essemiah el 27 de Oct. de 2022
Thank you for the data cursor code. I had to do some modifcations because not only the swept inputs define the ITEn, though that's how the isosurface interprets it. So it'd require patching the surface with all the input parameters in the isosurface command, which with my matlab knowledge is impossible to achieve.
Walter Roberson
Walter Roberson el 27 de Oct. de 2022
isosurface() converts all of the input coordinates into appropriate faces and vertex structure. All of the information that you pass to isosurface() is present in the structure that is returned to be used by patch()
isosurface() does not care how the values are calculated. It would be happy, for example, with a 3D projection down from a 4 dimensional space, such as a Maximum Intensity Projection. It does, however, assume that values are continuous, that if it sees a pixel with value 1 and a pixel beside it with value 2, assumes that there must be a location between the two with value between the two.

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