Daniel Kanaan scite author profile

This paper introduces a methodology to analyze geometrically the singularities of manipulators, of which legs apply both actuation forces and constraint moments to their moving platform. Lower mobility parallel manipulators and parallel manipulators, of which some legs have no spherical joint, are such manipulators. The geometric conditions associated with the dependency of six Plücker vectors of finite lines or lines at infinity constituting the rows of the inverse Jacobian matrix are formulated using Grassmann-Cayley algebra (GCA). Accordingly, the singularity conditions are obtained in vector form. This study is illustrated with the singularity analysis of four manipulators.Index Terms-Grassmann-Cayley algebra (GCA), infinite elements, parallel manipulator, screw theory, singularity.

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Kinematic analysis of a serial–parallel machine tool: The VERNE machine

Kanaan

Wenger

Chablat

2009

Mechanism and Machine Theory

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Singularity analysis of the H4 robot using Grassmann–Cayley algebra

Amine¹,

Caro²,

Wenger³

et al. 2012

Robotica

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This paper extends a recently proposed singularity analysis method to lower-mobility parallel manipulators having an articulated nacelle. Using screw theory, a twist graph is introduced in order to simplify the constraint analysis of such manipulators. Then, a wrench graph is obtained in order to represent some points at infinity on the Plücker lines of the Jacobian matrix. Using Grassmann-Cayley algebra, the rank deficiency of the Jacobian matrix amounts to the vanishing condition of the superbracket. Accordingly, the parallel singularities are expressed in three different forms involving superbrackets, meet and join operators, and vector cross and dot products, respectively. The approach is explained through the singularity analysis of the H 4 robot. All the parallel singularity conditions of this robot are enumerated and the motions associated with these singularities are characterized.

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Multi-Objective Design Optimization of the Leg Mechanism for a Piping Inspection Robot

Henry¹,

Chablat²,

Porez³

et al. 2014

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This paper addresses the dimensional synthesis of an adaptive mechanism of contact points ie a leg mechanism of a piping inspection robot operating in an irradiated area as a nuclear power plant. This studied mechanism is the leading part of the robot sub-system responsible of the locomotion. Firstly, three architectures are chosen from the literature and their properties are described. Then, a method using a multi-objective optimization is proposed to determine the best architecture and the optimal geometric parameters of a leg taking into account environmental and design constraints. In this context, the objective functions are the minimization of the mechanism size and the maximization of the transmission force factor. Representations of the Pareto front versus the objective functions and the design parameters are given. Finally, the CAD model of several solutions located on the Pareto front are presented and discussed.

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Daniel Kanaan

Singularity Analysis of Lower Mobility Parallel Manipulators Using Grassmann–Cayley Algebra

Kinematic analysis of a serial–parallel machine tool: The VERNE machine

Singularity analysis of the H4 robot using Grassmann–Cayley algebra

Multi-Objective Design Optimization of the Leg Mechanism for a Piping Inspection Robot

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