The position analysis of planar linkages has been dominated by resultant elimination and tangent-half-angle substitution techniques applied to sets of kinematic loop equations. This analysis is thus reduced to finding the roots of a polynomial in one variable, the characteristic polynomial of the linkage. In this paper, by using a new distance-based technique, it is shown that this standard approach becomes unnecessarily involved when applied to the position analysis of the three seven-link Assur kinematic chains. Indeed, it is shown that the characteristic polynomials of these linkages can be straightforwardly derived without relying on variable eliminations nor trigonometric substitutions, and using no others tools than elementary algebra
In this contribution the higher order analyses equations for a kinematic chain are deduced by succes...
The final publication is available at link.springer.comDistance-based formulations have successfully...
Abstract—This paper presents a new method to isolate all con-figurations that a multiloop linkage ca...
The position analysis of planar linkages has been dominated by resultant elimination and tangent-hal...
The paper presents the analytical-form position analysis of one of the three existing 7-link Assur k...
Following a couple of previous papers devoted to the position analysis of two different 7-link Assur...
The paper addresses the position analysis of the 7-link Assur kinematic chain that features three bi...
Abstract: The configurations of several Assur kinematic chains (AKCs) are analysed with the aid of c...
The real roots of the characteristic polynomial of a planar linkage determine its assembly modes. In...
A systematic algorithm, for the complete position analysis of ''any'' single loop spatial mechanism,...
This paper shows how, using elementary Distance Geometry, a closure polynomial of degree 8 for the D...
Kinematic chain analysis is viewed as consisting of a data structure, kinematic analysis, dynamic an...
The direct position analysis (DPA) of a manipulator is the computation of the end-effector poses (po...
The exact position analysis of a planar mechanism reduces to compute the roots of its characteristic...
The direct position analysis (DPA) of a manipulator is the computation of the end-effector poses (po...
In this contribution the higher order analyses equations for a kinematic chain are deduced by succes...
The final publication is available at link.springer.comDistance-based formulations have successfully...
Abstract—This paper presents a new method to isolate all con-figurations that a multiloop linkage ca...
The position analysis of planar linkages has been dominated by resultant elimination and tangent-hal...
The paper presents the analytical-form position analysis of one of the three existing 7-link Assur k...
Following a couple of previous papers devoted to the position analysis of two different 7-link Assur...
The paper addresses the position analysis of the 7-link Assur kinematic chain that features three bi...
Abstract: The configurations of several Assur kinematic chains (AKCs) are analysed with the aid of c...
The real roots of the characteristic polynomial of a planar linkage determine its assembly modes. In...
A systematic algorithm, for the complete position analysis of ''any'' single loop spatial mechanism,...
This paper shows how, using elementary Distance Geometry, a closure polynomial of degree 8 for the D...
Kinematic chain analysis is viewed as consisting of a data structure, kinematic analysis, dynamic an...
The direct position analysis (DPA) of a manipulator is the computation of the end-effector poses (po...
The exact position analysis of a planar mechanism reduces to compute the roots of its characteristic...
The direct position analysis (DPA) of a manipulator is the computation of the end-effector poses (po...
In this contribution the higher order analyses equations for a kinematic chain are deduced by succes...
The final publication is available at link.springer.comDistance-based formulations have successfully...
Abstract—This paper presents a new method to isolate all con-figurations that a multiloop linkage ca...