3D Surface plot with Cartesian coordinates

조회 수: 4 (최근 30일)
Paul
Paul 2013년 10월 15일
답변: Shivam Anand 2022년 5월 11일
Hi,
I have a set of data that represents the (x,y) Cartesian coordinates of objects in an electric grid and another vector (z) that represents the voltage at the corresponding (x,y) coordinate. I have been trying to plot a heatmap/voltage contour map/surface voltage plot (bird's eye-view of (x,y) grid with magnitude of (z) at each point) but have been unable to do so successfully.
I imagine its just a question of getting the correct matrix inputs for the 'surf(X,Y,Z)' function.
if true
% %the variations I've tried:
surf(busCoordsX, busCoordsY, busVoltsMesh);
view([0 90]);
surf(busCoordsX, busCoordsY, busVoltsMesh');
view([0 90]);
[X,Y] = meshgrid(busCoordsX, busCoordsY);
surf(X, Y, busVoltsMesh);
view([0 90]);
end
I have created a version of the plot using stem3, but it does not achieve the correct view. I can supply coordinates and bus voltages, but hopefully what I'm doing wrong is obvious (and silly). Any help would be incredible.
Thanks!
  댓글 수: 2
Youssef Khmou
Youssef Khmou 2013년 10월 15일
the instructions are correct, the wrong view is not explicit so far...
Paul
Paul 2013년 10월 15일
Hi Youssef,
Thanks for the response. Attached is my code, which should provide more details and below are the the results from my plotting attempts. It seems that more than one z-value is being assigned to each (x,y) coordinate, but I am not sure why this is happening.
Thanks!

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답변 (3개)

Youssef Khmou
Youssef Khmou 2013년 10월 15일
Paul,
I think reshaping will not give good results, however try these approaches,
1) Solution 1:
plot3(busCoordsX,busCoordsX,busVolts,'.')
grid on
view(-90,90)
Physical interpretation : The tension occurs when DX==DY !!!! ( to be verified).
2) Solution 2:
ZZ=diag(Z);
figure, surf(X,Y,ZZ)
shading interp
view(-63,76)
Physical interp : Random partition of the voltage in the plate .
Waiting for your answer.
Paul
Paul 2013년 10월 15일
Hi Youssef,
I am using my account at work, so different username. Thanks again for your suggestions. Solution 1 provides the same graph as a scatter3 plot (view at [0,90]), which is useful for verifying the circuit, but does not have the surface colormap.
For Solution 2, you wrote ZZ = diag(Z), and I initially tried this on the meshgrid(Z), but making a diagonal matrix from a 130x130x130 matrix locked up my computer. Doing diag(Z) on a 130x130 Voltage matrix returns a vector and that variable already exists. Am I interpreting your code incorrectly?
I have tried another method (code attached), using the 'griddata' function, and have a graph that somewhat does what I want, but it is not entirely correct. I am really stumped as to why surf(busCoordsX, busCoordsY, busVolts) does not work.
Thanks.
Shivam Anand
Shivam Anand 2022년 5월 11일
Ran in:
x=[32 20 67 1 98 34 57 65 24 82 47 55 8 51 13 14 18 30 37 39 10 33 21 26 38 81 83 60 95 22 17 5 72 46 99 52 12 25 96 29 70 85 43 69 19 78 97 31 89 53 2 91 48 71 61 15 36 84 94 50 11 80 6 7 49 74 9 88 40 79 27 68 73 64 63 59 86 23 35 58 45 28 100 42 93 87 16 90 41 66 54 92 77 4 62 76 75 56 3 44];
y=[96 75 24 9 83 49 27 77 3 23 17 31 40 13 7 52 51 21 98 47 64 79 78 91 44 16 15 100 84 99 63 68 70 30 54 76 97 73 33 5 88 8 71 66 62 25 60 42 72 45 18 11 28 59 89 65 10 55 69 81 12 26 20 95 87 41 74 50 93 22 43 90 14 34 82 35 56 38 80 32 1 57 6 36 37 61 29 58 2 48 4 46 67 53 92 86 94 19 39 85];
z=[55 31 11 45 83 36 86 49 15 57 42 46 8 94 88 47 54 81 98 41 32 35 56 85 9 89 37 60 23 62 67 100 78 76 73 80 10 20 68 34 77 93 1 63 53 12 22 99 91 40 84 24 33 3 43 19 92 97 6 82 64 25 26 79 95 4 44 58 5 21 70 29 65 87 96 90 51 14 18 2 72 28 71 39 52 7 27 59 50 61 48 30 66 69 17 13 74 16 75 38];
xlin = linspace(min(x), max(x), 100);
ylin = linspace(min(y), max(y), 100);
[X,Y] = meshgrid(xlin, ylin);
% Z = griddata(x,y,z,X,Y,'natural');
% Z = griddata(x,y,z,X,Y,'cubic');
Z = griddata(x,y,z,X,Y,'v4');
mesh(X,Y,Z)
axis tight; hold on
plot3(x,y,z,'.','MarkerSize',15)

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