DeNOC Based Dynamic Modelling of a Tree Type Humanoid Upper-body Robot with Fixed Base
Shifa Sulaiman, Dr Sudheer A P, Subir Kumar Saha
- 发表年份
- 2021
- 引用次数
- 2
摘要
Better dynamic model of humanoid robots helps to study the dynamic interaction of coupled systems, stable locomotion, and the model-based controller design. The dynamic analysis of the tree-type robotic mechanism is complex due to the presence of higher degrees of freedom. This paper presents the forward and inverse dynamic analysis of a tree-type upper body humanoid robot with fixed base. The Newton-Euler (NE) formulation is used for determining the dynamic model. Decoupled Natural Orthogonal Complement (DeNOC) methodology is included in the dynamic modeling to couple the various branches of the tree-type upper body. Torques at various joints are analyzed. This paper also presents a method for deriving the inverse of the Generalized Inertia Matrix (GIM) in forward dynamics.
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