Featherstone's algorithm

Featherstone's algorithm is a technique used for computing the effects of forces applied to a structure of joints and links (an "open kinematic chain") such as a skeleton used in ragdoll physics.

The Featherstone's algorithm uses a reduced coordinate representation. This is in contrast to the more popular Lagrange multiplier method, which uses maximal coordinates. Brian Mirtich's PhD Thesis has a very clear and detailed description of the algorithm. Baraff's paper "Linear-time dynamics using Lagrange multipliers" has a discussion and comparison of both algorithms.

• Featherstone, R. (1987). Robot Dynamics Algorithms. Boston: Kluwer. ISBN 0-89838-230-0.

• Featherstone Multibody in Bullet Physics engine
• Featherstone's algorithm implementation in the Moby rigid body dynamics simulator
• Source code for implementation of Featherstone's algorithm
• Description and references
• Mirtich's Thesis
• Baraff's Lagrange multiplier method
• Roy Featherstone's home page

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• Computational physics
• Computer physics engines
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