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Main Authors: Mazare, Mahmood, Taghizadeh, Mostafa, Najafi, M. Rasool
Format: Recurso digital
Language:English
Published: Zenodo 2019
Subjects:
Online Access:https://doi.org/10.1017/S0263574718001273
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author Mazare, Mahmood
Taghizadeh, Mostafa
Najafi, M. Rasool
author_facet Mazare, Mahmood
Taghizadeh, Mostafa
Najafi, M. Rasool
contents In this paper, a type of parallel robot with three translational degrees of freedom is studied. Inverse and forward kinematic equations are extracted for position and velocity analyses. The dynamic model is derived by Lagrange's approach and the principle of virtual work and related computational algorithms implementing inverse and forward dynamics are presented. Furthermore, some numerical simulations are performed using the kinematic and dynamic models in which the results show good agreement with expected qualitative behavior of the mechanism. Comparisons with the results of work-energy and impulse-momentum methods quantitatively verify the validity of the derived equations of motion. Also, a relative computational effectiveness is observed in implementation of virtual work model via the simulations. Copyright Cambridge University Press 2018.
format Recurso digital
id zenodo_https___doi_org_10_1017_S0263574718001273
institution Zenodo
language eng
publishDate 2019
publisher Zenodo
record_format zenodo
spellingShingle Inverse Dynamics of a 3-P[2(US)] Translational Parallel Robot
Mazare, Mahmood
Taghizadeh, Mostafa
Najafi, M. Rasool
Constrained system equations
Dynamic modeling
Kinematic modeling
Parallel robot
Virtual work
In this paper, a type of parallel robot with three translational degrees of freedom is studied. Inverse and forward kinematic equations are extracted for position and velocity analyses. The dynamic model is derived by Lagrange's approach and the principle of virtual work and related computational algorithms implementing inverse and forward dynamics are presented. Furthermore, some numerical simulations are performed using the kinematic and dynamic models in which the results show good agreement with expected qualitative behavior of the mechanism. Comparisons with the results of work-energy and impulse-momentum methods quantitatively verify the validity of the derived equations of motion. Also, a relative computational effectiveness is observed in implementation of virtual work model via the simulations. Copyright Cambridge University Press 2018.
title Inverse Dynamics of a 3-P[2(US)] Translational Parallel Robot
topic Constrained system equations
Dynamic modeling
Kinematic modeling
Parallel robot
Virtual work
url https://doi.org/10.1017/S0263574718001273