Estimate normals for point cloud
Load a point cloud.
Estimate the normal vectors.
normals = pcnormals(ptCloud); figure pcshow(ptCloud) title('Estimated Normals of Point Cloud') hold on
x = ptCloud.Location(1:10:end,1:10:end,1); y = ptCloud.Location(1:10:end,1:10:end,2); z = ptCloud.Location(1:10:end,1:10:end,3); u = normals(1:10:end,1:10:end,1); v = normals(1:10:end,1:10:end,2); w = normals(1:10:end,1:10:end,3);
Plot the normal vectors.
quiver3(x,y,z,u,v,w); hold off
Flip the normals to point towards the sensor location. This step is necessary only for determining the inward or outward direction of the surface. The sensor center is set in x , y , z coordinates.
sensorCenter = [0,-0.3,0.3]; for k = 1 : numel(x) p1 = sensorCenter - [x(k),y(k),z(k)]; p2 = [u(k),v(k),w(k)]; % Flip the normal vector if it is not pointing towards the sensor. angle = atan2(norm(cross(p1,p2)),p1*p2'); if angle > pi/2 || angle < -pi/2 u(k) = -u(k); v(k) = -v(k); w(k) = -w(k); end end
Plot the adjusted normals.
figure pcshow(ptCloud) title('Adjusted Normals of Point Cloud') hold on quiver3(x, y, z, u, v, w); hold off
ptCloud— Object for storing point cloud
Object for storing point cloud, returned as a
k— Number of points used for local plane fitting
Number of points used for local plane fitting, specified as an integer greater than or equal to 3. Increasing this value improves accuracy but slows down computation time.
normals— Normals used to fit a local plane
Normals used to fit a local plane, returned as an M-by-3 or an M-by-N-by-3 vector. The normal vectors are computed locally using six neighboring points. The direction of each normal vector can be set based on how you acquired the points. The Estimate Normals of Point Cloud example, shows how to set the direction when the normal vectors are pointing towards the sensor.
 Hoppe, H., T. DeRose, T. Duchamp, J. Mcdonald, and W. Stuetzle. "Surface Reconstruction from Unorganized Points". Computer Graphics (SIGGRAPH 1992 Proceedings). 1992, pp. 71–78.
Usage notes and limitations:
Supports code generation (requires MATLAB®
Coder™) only in generic
MATLAB Host Computer
Generates code that uses a precompiled, platform-specific shared library.