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I have a 3D region enclosed by following 3 equations and the axes. x+y<1 , x>(z/(1+z))*(1-y) , x>1-((1+z)*y/z). x , y and z are bounded at 0 and 1.

Following matlab code generates the 3D plot, I want to show the bounded region as a solid. How to do that ?

y=0:0.05:1; %v2
z=0:0.05:1; % delta
[Y,Z]= meshgrid(y,z);
X = 1-Y;
axis([0 1 0 1 0 1]);
hold on;
X = (Z./(1+Z))*(1-Y);
axis([0 1 0 1 0 1]);
X = 1-((1+Z)./Z)*Y;
axis([0 1 0 1 0 1]);

Kindly limit the solution to Matlab or R.

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1 Answer 1

% build a tessellation of a unit cube as a simplicial complex sc = tessellatelattice({0:.1:1,0:.1:1,0:.1:1});

% Truncate it to create a right triangular prism, % such that x + y <= 1 sc = planartruncate(sc,[.5 .5 0],-[1 1 0]);

% extract the points, to create a set of nonlinear constraints x = sc.domain(:,1); y = sc.domain(:,2); z = sc.domain(:,3); % Build the nonlinear surface constraints sc.range = [x - (z./(1+z)).*(1-y), x - (1-((1+z).*y./z))];

% truncate away the part that fails those constraints % x>(z/(1+z))*(1-y) sc = isotruncate(sc,0,1,'range','above');

% x>1-((1+z)*y/z) sc = isotruncate(sc,0,2,'range','above');

% plot the resulting blob plotsc(sc,'marker','none')

triangulated blob

As you can see, it is a right triangular prism, but with two "faces" that are sort of hyperbolic.


This uses my simplicialcomplex toolbox, something I occasionally give out, but have not posted, as it takes a bit of effort to learn to use. Once learnt, it is a useful thing, IF one is willing to spend the effort to learn it.

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