# How to create mesh on cylindrical surface after generating random points on cylindrical surface

Now I can generate random points on cylindrical surface. But I cannot create correctly the mesh on cylindrical surface by using generated points. When I use this code, the triangle mesh created by delaunay triangulation becomes vertically long. So I want to solve this problem.

I show my code here. I don't want to change the parameters except for number of points

``````     clear all
close all
clc

n =1000;          % Number of points

c = 3.0*10^8;      % Speed of lgiht
f = 5.2*10^9;      % Frequency
lambda = c/f;      % Wavelength
r = 3*lambda;      % Radius of circular cylinder
theta = rand(1,n)*(2*pi);

% Equation
x = r.*cos(theta);
y = r.*sin(theta);
z = 2*rand(n,1)-1;

% Plot
figure(1)
scatter3(x(:), y(:), z(:),'.')

% axis equal
xlabel('x-length','Fontname','Times New Roman','fontsize',25)
ylabel('y-length','Fontname','Times New Roman','fontsize',25)
zlabel('z-length','Fontname','Times New Roman','fontsize',25)
title('Randomly distributed point cloud on surface of cylinder','Fontname','Times New Roman','fontsize',25)

% Plot range
xlim([-1 1])     % Plot range of x-axis
ylim([-1 1])     % Plot range of y-axis
zlim([-1 1])     % Plot range of z-axis
set(gca,'Fontname','Times New Roman','fontsize',20)

% Create mesh
figure(2)
dt = delaunayTriangulation(x(:),y(:),z(:));
[tri, Xb] = freeBoundary(dt);
tr = TriRep(tri, Xb);
P = incenters(tr);
fn = faceNormals(tr);
trisurf(tri,Xb(:,1),Xb(:,2),Xb(:,3), ...
'FaceColor', 'g', 'faceAlpha', 0.8);
axis equal;
hold on;
quiver3(P(:,1),P(:,2),P(:,3), ...
fn(:,1),fn(:,2),fn(:,3),0.5, 'color','r');
hold off;
xlabel('x-length','Fontname','Times New Roman','fontsize',25)
ylabel('y-length','Fontname','Times New Roman','fontsize',25)
zlabel('z-length','Fontname','Times New Roman','fontsize',25)
title('Randamly distributed point cloud on surface of cylinder','Fontname','Times New Roman','fontsize',25)
% Plot range
xlim([-1 1])     % Plot range of x-axis
ylim([-1 1])     % Plot range of y-axis
zlim([-1 1])     % Plot range of z-axis
set(gca,'Fontname','Times New Roman','fontsize',20)
``````

Please teach me the cause that the mesh becomes vertically long.

-
Thank you for your comment. I have a question. What do you mean 'separately'? I can create the cylinder. Did you run my code? –  Hiro Jan 29 '14 at 9:09
Can you specify what you mean by 'vertically long'? –  Cape Code Jan 29 '14 at 15:43
Thank you for replying to me, Jigg. Did you run my code? When this code is run, the mesh of triangle becomes long to the z-axis direction. I want to solve this problem. You can confirm that the triangle mesh is 'vertically long' when you zoom figure2. –  Hiro Jan 30 '14 at 0:30