A. Hernández scite author profile

SUMMARYThe aim of this paper is to show how it is possible to obtain for the 5R planar parallel manipulator the complete workspace associated with each solution of the direct kinematic problem or assembly mode. The workspaces associated with the different inverse kinematic problem solutions or working modes are joined and the robot moves from one to another without losing the control. An exhaustive analysis of the complete workspace and singular positions of the 5R planar parallel manipulator with two active joints is presented. Furthermore, application of these principles to path planning will be explained.

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Optimal Dimensioning for Parallel Manipulators: Workspace, Dexterity, and Energy

Altuzarra

Pinto

Sandru³

et al. 2011

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In mechanism design and in the particular case of the parallel manipulator, most optimization problems involve simultaneously optimizing more than one objective function. In this paper, a method to identify Pareto-optimal solutions for the design of low-mobility parallel manipulators is presented. A 4-degree-of-freedom symmetric parallel manipulator for Schönflies-motion generation is taken as a case study. The design goals used are workspace volume and manipulator dexterity based on a dispersion weighted Frobenius norm. In addition, an expression for energy per cycle has been defined for different types of trajectory to evaluate the power drive. Finally, the set of Pareto-optimal solutions of the design parameters are represented in the design parameter space.

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Synthesis and Design of a Novel 3T1R Fully-Parallel Manipulator

Salgado

Altuzarra

Petuya

et al. 2008

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In this paper a new topology of four degrees-of-freedom 3T1R fully-parallel manipulator is presented, which is defined only using lower kinematic pairs. The paper starts with a complete type synthesis of different topologies of fully-parallel manipulators that can perform the so-called Schönflies motion, based on the Theory of Groups of Displacements. After imposing some practical requirements, the different possibilities of manipulators are reduced to only one topology of fully-parallel and fully-symmetrical parallel manipulator. Then, the kinematic analysis of the manipulator is shown, including the closed-form resolution of both forward and inverse position problems, the velocity and the singularity analysis. Finally, a prototype of the manipulator is presented, which is intended to be used in pick and place applications.

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Educational software tools for the kinematic analysis of mechanisms

Petuya

Macho

Altuzarra

et al. 2011

Comp Applic In Engineering

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A. Hernández

Obtaining configuration space and singularity maps for parallel manipulators

Workspaces associated to assembly modes of the 5R planar parallel manipulator

Optimal Dimensioning for Parallel Manipulators: Workspace, Dexterity, and Energy

Synthesis and Design of a Novel 3T1R Fully-Parallel Manipulator

Educational software tools for the kinematic analysis of mechanisms

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