Proposal of methodology for the modeling and control of manipulators

Proposal of methodology for the modeling and control of manipulators

Industrial applications demand that robots operate in agreement with the position and orientation of their end effector. It is necessary to solve the kinematics inverse problem. This allows the displacement of the joints of the manipulator to be determined, to accomplish a given objective. Complete studies of dynamical control of joint robotics are also necessary. Initially, this article focuses on the implementation of numerical algorithms for the solution of the kinematics inverse problem and the modeling and simulation of dynamic systems. This is done using real time implementation. The modeling and simulation of dynamic systems are performed emphasizing off-line programming. In sequence, a complete study of the control strategies is carried out through the study of several elements of a robotic joint, such as: DC motor, inertia, and gearbox. Finally a trajectory generator, used as input for a generic group of joints, is developed and a proposal of the controller's implementation of joints, using EPLD development system, is presented.

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Main Authors: Rosário,J. M., Oliveira,C. de, Sá,C. E. A. de, Lima,C. R. E.
Format: Digital revista
Language:English
Published: The Brazilian Society of Mechanical Sciences 2002
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0100-73862002000300008
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spelling oai:scielo:S0100-738620020003000082003-08-27Proposal of methodology for the modeling and control of manipulatorsRosário,J. M.Oliveira,C. deSá,C. E. A. deLima,C. R. E. Kinematics modeling dynamical control Industrial applications demand that robots operate in agreement with the position and orientation of their end effector. It is necessary to solve the kinematics inverse problem. This allows the displacement of the joints of the manipulator to be determined, to accomplish a given objective. Complete studies of dynamical control of joint robotics are also necessary. Initially, this article focuses on the implementation of numerical algorithms for the solution of the kinematics inverse problem and the modeling and simulation of dynamic systems. This is done using real time implementation. The modeling and simulation of dynamic systems are performed emphasizing off-line programming. In sequence, a complete study of the control strategies is carried out through the study of several elements of a robotic joint, such as: DC motor, inertia, and gearbox. Finally a trajectory generator, used as input for a generic group of joints, is developed and a proposal of the controller's implementation of joints, using EPLD development system, is presented.info:eu-repo/semantics/openAccessThe Brazilian Society of Mechanical SciencesJournal of the Brazilian Society of Mechanical Sciences v.24 n.3 20022002-07-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S0100-73862002000300008en10.1590/S0100-73862002000300008
institution SCIELO
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country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Rosário,J. M.
Oliveira,C. de
Sá,C. E. A. de
Lima,C. R. E.
spellingShingle Rosário,J. M.
Oliveira,C. de
Sá,C. E. A. de
Lima,C. R. E.
Proposal of methodology for the modeling and control of manipulators
author_facet Rosário,J. M.
Oliveira,C. de
Sá,C. E. A. de
Lima,C. R. E.
author_sort Rosário,J. M.
title Proposal of methodology for the modeling and control of manipulators
title_short Proposal of methodology for the modeling and control of manipulators
title_full Proposal of methodology for the modeling and control of manipulators
title_fullStr Proposal of methodology for the modeling and control of manipulators
title_full_unstemmed Proposal of methodology for the modeling and control of manipulators
title_sort proposal of methodology for the modeling and control of manipulators
description Industrial applications demand that robots operate in agreement with the position and orientation of their end effector. It is necessary to solve the kinematics inverse problem. This allows the displacement of the joints of the manipulator to be determined, to accomplish a given objective. Complete studies of dynamical control of joint robotics are also necessary. Initially, this article focuses on the implementation of numerical algorithms for the solution of the kinematics inverse problem and the modeling and simulation of dynamic systems. This is done using real time implementation. The modeling and simulation of dynamic systems are performed emphasizing off-line programming. In sequence, a complete study of the control strategies is carried out through the study of several elements of a robotic joint, such as: DC motor, inertia, and gearbox. Finally a trajectory generator, used as input for a generic group of joints, is developed and a proposal of the controller's implementation of joints, using EPLD development system, is presented.
publisher The Brazilian Society of Mechanical Sciences
publishDate 2002
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0100-73862002000300008
work_keys_str_mv AT rosariojm proposalofmethodologyforthemodelingandcontrolofmanipulators
AT oliveiracde proposalofmethodologyforthemodelingandcontrolofmanipulators
AT saceade proposalofmethodologyforthemodelingandcontrolofmanipulators
AT limacre proposalofmethodologyforthemodelingandcontrolofmanipulators
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