Rigid body parameters of closed surface meshes

Version 1.5.0.2 (864 KB) by Anton Semechko

Fast computation of exact rigid body parameters of closed triangular surface meshes using divergence theorem

https://github.com/AntonSemechko/Rigid-Body-Parameters

5.0

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765 Downloads

Updated 24 Sep 2021

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Rigid Body Parameters

In order to simulate dynamic behaviour of a rigid-body, one requires knowledge of a set of rigid-body parameters such as the total mass of the rigid-body, the center of mass, as well as the moments and products of inertia. The purpose of this submission is to provide a function which computes exact rigid-body parameters of objects represented by closed, triangular surface meshes. The principles underlying the calculations are based on the divergence theorem and are explained in detail in the attached .pdf document. This submission also includes two functions that take as input an arbitrary mesh and output parameters of a primitive object, such as an ellipsoid or a cuboid, with exactly the same inertial parameters as the input object. Finally, VisualizeLocaFrame.m function can be used for visualizing local frames of reference constructed from principal axes of inertia.

Quick Demo

load('sample_mesh') 	
RBP=RigidBodyParams(TR);
disp(RBP)
VisualizeLocalFrame(TR)

Enforcing Consistent and Proper Face Orientation

All calculations are based on the assumption that the input mesh is closed, manifold, and has outward pointing normals. To obtain outward point normals, the vertices of all faces must have counterclockwise ordering. If you know or suspect the input the mesh has either inconsistent or improper face orientation use function ConsistentNormalOrientation prior to computing the rigid-body parameters. Here is an example:

load('sample_mesh')
[F,V]=GetMeshData(TR);

% Randomly mix-up orientations of the faces to simulate the problem above
Nf=size(F,1);
idx=randn(Nf,1)>0;	
F2=F;
F2(idx,:)=fliplr(F(idx,:));
TR2=triangulation(F2,V);
fprintf('\nNumber of inverted faces: %d\n',nnz(idx))
	
% Enforce proper face orientation
[TR2_fix,cnt]=ConsistentNormalOrientation(TR2);
fprintf('Number of faces corrected: %d\n\n',cnt)

% Verify that the output is identical to RBP for the original mesh
RBP_fix=RigidBodyParams(TR2_fix);

fprintf('Corrected mesh:\n')
disp(RBP_fix)

fprintf('Original (reference) mesh:\n')
disp(RigidBodyParams(TR))

% Result you would have gotten without ensuring proper face orientation:
RBP2=RigidBodyParams(TR2);
fprintf('Uncorrected mesh:\n')
disp(RBP2)

License

Cite As

Anton Semechko (2024). Rigid body parameters of closed surface meshes (https://github.com/AntonSemechko/Rigid-Body-Parameters), GitHub. Retrieved April 16, 2024.

MATLAB Release Compatibility

Created with R2013a

Compatible with any release

Platform Compatibility

Windows macOS Linux

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Acknowledgements

Inspired: CLUMP: Code Library to generate Multi-sphere Particles, Asteroid Shape Data Explorer

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Auxiliary Functions

Auxiliary Functions/Remeshing

Versions that use the GitHub default branch cannot be downloaded

Version	Published	Release Notes
1.5.0.2	24 Sep 2021	Use README.md from GitHub
1.5.0.1	27 Mar 2021	Add 'ConsitentNormalOrientation.m' to ensure consistent and proper face normal orientation.
1.4.0.1	4 Sep 2020	- submission description update
1.4.0.0	7 May 2019	- migrated to GitHub
1.3.0.0	29 Apr 2015	- no changes were made	Download
1.2.0.0	29 Apr 2015	Forgot to include a number of auxiliary functions used during visualization. This submission contains all of the necessary functions.	Toolbox Zip
1.1.0.0	29 Apr 2015	- Made corrections to the attached document explaining the calculations implemented in this submission. - Added a function to help visualize local frame of reference constructed from principal axes of inertia	Download
1.0.0.0	31 Dec 2014		Download

To view or report issues in this GitHub add-on, visit the GitHub Repository.