How to plot a 3D scatter with hyperplanes going through a point?

I mean something like the following two pictures combined:

I need the hyperplanes to go through the point in row 3. I came up with some code, but it doesn't show any planes at all.

``````Data = [3.95, 13.83, 4.12; 2.77, 15.34, 5.85; 4.41, 14.66, 5.548 ]
x= Data(:,1);
y= Data(:,2);
z= Data(:,3);

pointA = [4.4, 14.7, 5.5];
pointB = [4.4, 14.7, 5.5];
pointC =  [4.4, 14.7, 5.5];
pointD = [4.4, 14.7, 5.5];

normal = cross(pointA-pointB, pointA-pointC)
A = normal(1); B = normal(2); C = normal(3);
D = -dot(normal,pointA);
zLim = [min(z) max(z)];
yLim = [min(y) max(y)];
[Y,Z] = meshgrid(yLim,zLim);
X = (C * Z + B * Y + D)/ (-A);
reOrder = [1 2  4 3];
figure();patch(X(reOrder),Y(reOrder),Z(reOrder),'r');
grid on;
alpha(0.3);
hold on
plot3(x,x,z, '.', 'markersize', 30);
``````

Any idea how I could fix this?

migrated from stats.stackexchange.comMay 12 at 13:31

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• If you want "vertical" and "horizontal" planes you don't need to find the normal of the planes (the normals are already the main unit vectors of your cartesian coordinate system ...). Also in your example your `pointA` to `PointD` are all identical, what do you expect when you calculate your `normal` ? – Hoki May 13 at 14:54

Here, try this:

``````function q56099751
data = [3.95, 13.83, 4.12
2.77, 15.34, 5.85
4.41, 14.66, 5.548 ];

x = data(:,1);
y = data(:,2);
z = data(:,3);

% Scatter:
figure(); scatter3(x,y,z,'filled'); hold on;

% Planes:
extents = zeros(3,2);
[extents(1,1), extents(1,2)] = bounds(x);
[extents(2,1), extents(2,2)] = bounds(y);
[extents(3,1), extents(3,2)] = bounds(z);
% extents = extents .* [0.9 1.1]; % See what happens when you uncomment this

for ind1 = 1:numel(x)
planesThroughPoint(x(ind1), y(ind1), z(ind1), extents , [1 1 0]);
end

function planesThroughPoint(ptX, ptY, ptZ, extents, whichPlane)
if whichPlane(1)
% XY Plane
XYZ = [extents(1,1) extents(2,1) ptZ
extents(1,2) extents(2,1) ptZ
extents(1,2) extents(2,2) ptZ
extents(1,1) extents(2,2) ptZ];
patch( XYZ(:,1), XYZ(:,2), XYZ(:,3), 'r', 'FaceAlpha', 0.2);
end

if whichPlane(2)
% XZ Plane
XYZ = [extents(1,1) ptY extents(3,1)
extents(1,2) ptY extents(3,1)
extents(1,2) ptY extents(3,2)
extents(1,1) ptY extents(3,2)];
patch( XYZ(:,1), XYZ(:,2), XYZ(:,3), 'g', 'FaceAlpha', 0.2);
end

if whichPlane(3)
% YZ Plane
XYZ = [ptX extents(2,1) extents(3,1)
ptX extents(2,2) extents(3,1)
ptX extents(2,2) extents(3,2)
ptX extents(2,1) extents(3,2)];
patch( XYZ(:,1), XYZ(:,2), XYZ(:,3), 'b', 'FaceAlpha', 0.2);
end
``````

A few examples of what this code can produce (depending on how you configure it):

If you want the planes to go through just one point, don't use a loop, and instead provide the correct `XYZ` coordinates to `planesThroughPoint`.