The exact position analysis of a planar mechanism reduces to compute the roots of its characteristic polynomial. Obtaining this polynomial usually involves, as a first step, obtaining a system of equations derived from the independent kinematic loops of the mechanism. Although conceptually simple, the use of kinematic loops for deriving characteristic polynomials leads to complex variable eliminations and, in most cases, trigonometric substitutions. As an alternative, a method based on bilateration has recently been shown to permit obtaining the characteristic polynomials of the three-loop Baranov trusses without relying on variable eliminations or trigonometric substitutions. This paper shows how this technique can be applied to solve the ...
The paper presents the analytical-form position analysis of one of the three existing 7-link Assur k...
This thesis concerns parallel, platform mechanisms, consisting of two distal links that are connecte...
This paper presents the direct position analysis in analytical form of a six-degree-of-freedom 4-4 f...
The exact position analysis of a planar mechanism reduces to compute the roots of its characteristi...
The exact position analysis of a planar mechanism reduces to compute the roots of its characteristic...
The real roots of the characteristic polynomial of a planar linkage determine its assembly modes. In...
© . This manuscript version is made available under the CC-BY-NC-ND 4.0 license http://creativecommo...
The direct position analysis (DPA) of a manipulator is the computation of the end-effector poses (po...
The direct position analysis (DPA) of a manipulator is the computation of the end-effector poses (po...
Following a couple of previous papers devoted to the position analysis of two different 7-link Assur...
The position analysis of planar linkages has been dominated by resultant elimination and tangent-hal...
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...
The direct position analysis (DPA) of a manipulator is the computation of the end-effector poses (po...
Abstract: The direct position analysis (DPA) of a manipulator is the computation of the end-effector...
The paper presents the analytical-form position analysis of one of the three existing 7-link Assur k...
This thesis concerns parallel, platform mechanisms, consisting of two distal links that are connecte...
This paper presents the direct position analysis in analytical form of a six-degree-of-freedom 4-4 f...
The exact position analysis of a planar mechanism reduces to compute the roots of its characteristi...
The exact position analysis of a planar mechanism reduces to compute the roots of its characteristic...
The real roots of the characteristic polynomial of a planar linkage determine its assembly modes. In...
© . This manuscript version is made available under the CC-BY-NC-ND 4.0 license http://creativecommo...
The direct position analysis (DPA) of a manipulator is the computation of the end-effector poses (po...
The direct position analysis (DPA) of a manipulator is the computation of the end-effector poses (po...
Following a couple of previous papers devoted to the position analysis of two different 7-link Assur...
The position analysis of planar linkages has been dominated by resultant elimination and tangent-hal...
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...
The direct position analysis (DPA) of a manipulator is the computation of the end-effector poses (po...
Abstract: The direct position analysis (DPA) of a manipulator is the computation of the end-effector...
The paper presents the analytical-form position analysis of one of the three existing 7-link Assur k...
This thesis concerns parallel, platform mechanisms, consisting of two distal links that are connecte...
This paper presents the direct position analysis in analytical form of a six-degree-of-freedom 4-4 f...