Graphics from 2D data
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Hi there,
I have a matrix x of size 39505X2 and i was wondering how can i plot graphics as shown below from my data
Respuesta aceptada
Star Strider
el 26 de Sept. de 2023
0 votos
It would be nice to have ‘x’ since I suspect that ‘x(:,1)’ cycliically repeats. Using reshape to use the cyclic repeat information to create a matrix from ‘x(:,2)’ could be the solution.
8 comentarios
Weather502
el 26 de Sept. de 2023
Editada: Torsten
el 26 de Sept. de 2023
Torsten
el 26 de Sept. de 2023
So you have x/y data. And where are the z-data your colour plot is based on: z = f(x,y) ?
Oh well. So much for that idea.
There are duplicated values, however they are in no regular pattern. It is likely not possible to construct anything of significance from these data. I have no idea where the matrix in the plot came from, however it was not from these data.
LD = load('x y data.mat')
Data = LD.all_data
x = Data(:,1);
y = Data(:,2);
[Ux,~,ixx] = unique(x,'stable');
Xcounts = accumarray(ixx, (1:numel(ixx)).', [], @(x){x});
% [MaxSizeX,idxx] = maxk(cellfun(@numel, Xcounts),5)
[Uy,~,ixy] = unique(y,'stable');
Ycounts = accumarray(ixy, (1:numel(ixy)).', [], @(x){x});
% [MaxSizeY,idxy] = maxk(cellfun(@numel, Ycounts),5)
figure
scatter(x, y, 5, exp(-(x-mean(x)).^2 .* (y-mean(y)).^2), '.')
colormap(turbo)
colorbar
axis('equal')
I can get this far, however I cannot figure out how to get what appears to be an imagesc plot from it.
.
I wonder if it is a density plot?
xy = load("x y data.mat")
x = xy.all_data(:,1);
y = xy.all_data(:,2);
scatter(x, y)
No. density doesn't seem to match example plot.
Weather502
el 26 de Sept. de 2023
Editada: Weather502
el 26 de Sept. de 2023
I experimented a bit more with this.
Here are some options —
LD = load('x y data.mat');
Data = LD.all_data
x = Data(:,1);
y = Data(:,2);
[Ux,~,ixx] = unique(x,'stable');
Xcounts = accumarray(ixx, (1:numel(ixx)).', [], @(x){x});
% [MaxSizeX,idxx] = maxk(cellfun(@numel, Xcounts),5)
[Uy,~,ixy] = unique(y,'stable');
Ycounts = accumarray(ixy, (1:numel(ixy)).', [], @(x){x});
% [MaxSizeY,idxy] = maxk(cellfun(@numel, Ycounts),5)
SF = 3E+2; % Scalle Factor (For Gaussian Approximation)
z = exp(-(x-mean(x)).^2*SF) .* exp(-(y-mean(y)).^2*SF);
% figure
% plot(x, exp(-(x-mean(x)).^2*SF))
% hold on
% plot(y, exp(-(y-mean(y)).^2*SF))
% hold off
figure
scatter(x, y, 5, z, '.')
colormap(turbo)
colorbar
axis('equal')
figure
% stem3(x, y, z, '.')
hold on
scatter3(x, y, z, 2.5, z, 'o', 'filled')
hold off
colormap(turbo)
colorbar
xlabel('X')
ylabel('Y')
zlabel('Density')
grid on
view(-37.5,30)
% axis('equal')
xv = linspace(min(x), max(x), fix(sqrt(numel(x))));
yv = linspace(min(y), max(y), fix(sqrt(numel(y))));
F = scatteredInterpolant(x, y, z);
[X,Y] = ndgrid(xv, yv);
Z = F(X,Y);
figure
surfc(X, Y, Z, 'EdgeColor','interp')
colormap(turbo)
colorbar
xlabel('X')
ylabel('Y')
zlabel('Density')
% [az,el] = view
[Uxy,~,ix] = unique(Data,'rows','stable');
Tally = accumarray(ix, (1:numel(ix)), [], @(x){Data(x,:)});
Density = cellfun(@(x)size(x,1), Tally);
figure
scatter3(Uxy(:,1), Uxy(:,2), Density, 5, Density, 'o', 'filled')
colormap(turbo)
colorbar
xlabel('X')
ylabel('Y')
zlabel('Density')
title('Empirical Density Plot')
figure
hist3(Data,[250 250],'CDataMode','auto','FaceColor','interp')
colormap(turbo)
colorbar
xlabel('X')
ylabel('Y')
zlabel('Density')
title('Empirical Density Histogram Plot')
[N,C] = hist3(Data,[250 250]);
figure
imagesc(C{1}, C{2}, N)
colormap(turbo)
colorbar
set(gca, 'YDir','normal')
xlabel('X')
ylabel('Y')
title('Image Plot Of Density Data')
The accumarray call that produced the density data for the final plot is the best I can do with an empirical approximation of the density. It counts the numbers of (x,y) pairs with the same coordinates, as determined by the last unique call. It might be possible to do a nonlinear fit of the hist3 results to a bivariate Gaussian distribution.
.
Weather502
el 29 de Sept. de 2023
Star Strider
el 29 de Sept. de 2023
Editada: Star Strider
el 29 de Sept. de 2023
As always, my pleasure!
EDIT — (29 Sep 2023 at 17:48)
Just out of interest —
LD = load('x y data.mat');
Data = LD.all_data;
x = Data(:,1);
y = Data(:,2);
zfcn = @(b,xy) b(1).*exp(-(xy(:,:,1)-b(2)).^2*b(3)) .* exp(-(xy(:,:,2)-b(4)).^2*b(5));
[N,C] = hist3(Data,[250 250]);
xv = linspace(min(x), max(x), size(N,1));
yv = linspace(min(y), max(y), size(N,2));
[X,Y] = ndgrid(xv, yv);
XY = cat(3, X, Y);
B = lsqcurvefit(zfcn,[50,mean(x),300,mean(y),300],XY,N)
ZZ = zfcn(B,XY);
figure
surf(X, Y, N, 'EdgeColor',[1 1 1]*0.5, 'FaceAlpha',0.25, 'EdgeAlpha',0.25)
hold on
surf(X,Y,ZZ, 'EdgeColor','interp')
hold off
colormap(turbo)
colorbar
xlabel('X')
ylabel('Y')
.
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