In most practical implementations of the Gough-Stewart platform, the octahedral form is either taken as it stands or is approximated. The kinematics of this particular instance of the Gough-Stewart platform, commonly known as the octahedral manipulator, has been thoughtfully studied. It is well-known, for example, that its forward kinematics can be solved by computing the roots of an octic polynomial and that its singularities have a simple geometric interpretation in terms of the intersection of four planes in a single point. In this paper, using a distance-based formulation, it is shown that this octic polynomial can be straightforwardly derived and a whole family of platforms kinematically equivalent to the octahedral manipulator is obtained. Two Gough-Stewart parallel platforms are said to be kinematically equivalent if there is a one-toone correspondence between their squared leg lengths for the same configuration of their moving platforms with respect to their bases. If this condition is satisfied, it can be easily shown that both platforms have the same assembly modes and their singularities, in the configuration space of the moving platform, are located in the same place. Actually, both consequences are two faces of the same coin. ; Postprint (author’s final draft)
A distance-based formulation of the octahedral manipulator kinematics
2010-01-01
Miscellaneous
Electronic Resource
English
Àrees temàtiques de la UPC::Informàtica::Robòtica , Robots -- Dynamics , robot kinematics PARAULES AUTOR: octahedral manipulator , position analysis , forward kinematics , distance-based formulations , Cayley-Menger determinants , trilateration , Robots -- Dinàmica , Classificació INSPEC::Automation::Robots::Robot kinematics
DDC: | 629 |
The Kinematics of the Double-Octahedral Parallel Manipulator and its Equivalent Serial Mechanism
British Library Conference Proceedings | 1998
|Springer Verlag | 2017
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