Analytical inverse kinematic computation for 7-DOF redundant manipulators with joint limits and its application to redundancy resolution

Masayuli Shimizu; Hiromu Kakuya; Woo Keum Yoon; Kasei Kitagaki; Kazuhiro Kosuge

doi:10.1109/TRO.2008.2003266

Analytical inverse kinematic computation for 7-DOF redundant manipulators with joint limits and its application to redundancy resolution

Masayuli Shimizu, Hiromu Kakuya, Woo Keum Yoon, Kasei Kitagaki, Kazuhiro Kosuge

Research output: Contribution to journal › Article › peer-review

247 Citations (Scopus)

Abstract

This paper proposes an analytical methodology of inverse kinematic computation for 7 DOF redundant manipulators with joint limits. Specifically, the paper focuses on how to obtain all feasible inverse kinematic solutions in the global configuration space where joint movable ranges are limited. First, a closed-form inverse kinematic solution is derived based on a parameterization method. Second, how the joint limits affect the feasibility of the inverse solution is investigated to develop an analytical method for computing feasible solutions under the joint limits. Third, how to apply the method to the redundancy resolution problem is discussed and analytical methods to avoid joint limits are developed in the position domain. Lastly, the validity of the methods is verified by kinematic simulations.

Original language	English
Pages (from-to)	1131-1142
Number of pages	12
Journal	IEEE Transactions on Robotics
Volume	24
Issue number	5
DOIs	https://doi.org/10.1109/TRO.2008.2003266
Publication status	Published - 2008
Externally published	Yes

Keywords

Arm angle
Inverse kinematics
Joint limit
Redundancy resolution
Redundant manipulator

ASJC Scopus subject areas

Control and Systems Engineering
Computer Science Applications
Electrical and Electronic Engineering

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10.1109/TRO.2008.2003266

Cite this

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abstract = "This paper proposes an analytical methodology of inverse kinematic computation for 7 DOF redundant manipulators with joint limits. Specifically, the paper focuses on how to obtain all feasible inverse kinematic solutions in the global configuration space where joint movable ranges are limited. First, a closed-form inverse kinematic solution is derived based on a parameterization method. Second, how the joint limits affect the feasibility of the inverse solution is investigated to develop an analytical method for computing feasible solutions under the joint limits. Third, how to apply the method to the redundancy resolution problem is discussed and analytical methods to avoid joint limits are developed in the position domain. Lastly, the validity of the methods is verified by kinematic simulations.",

keywords = "Arm angle, Inverse kinematics, Joint limit, Redundancy resolution, Redundant manipulator",

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AU - Shimizu, Masayuli

AU - Kakuya, Hiromu

AU - Yoon, Woo Keum

AU - Kitagaki, Kasei

AU - Kosuge, Kazuhiro

PY - 2008

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N2 - This paper proposes an analytical methodology of inverse kinematic computation for 7 DOF redundant manipulators with joint limits. Specifically, the paper focuses on how to obtain all feasible inverse kinematic solutions in the global configuration space where joint movable ranges are limited. First, a closed-form inverse kinematic solution is derived based on a parameterization method. Second, how the joint limits affect the feasibility of the inverse solution is investigated to develop an analytical method for computing feasible solutions under the joint limits. Third, how to apply the method to the redundancy resolution problem is discussed and analytical methods to avoid joint limits are developed in the position domain. Lastly, the validity of the methods is verified by kinematic simulations.

AB - This paper proposes an analytical methodology of inverse kinematic computation for 7 DOF redundant manipulators with joint limits. Specifically, the paper focuses on how to obtain all feasible inverse kinematic solutions in the global configuration space where joint movable ranges are limited. First, a closed-form inverse kinematic solution is derived based on a parameterization method. Second, how the joint limits affect the feasibility of the inverse solution is investigated to develop an analytical method for computing feasible solutions under the joint limits. Third, how to apply the method to the redundancy resolution problem is discussed and analytical methods to avoid joint limits are developed in the position domain. Lastly, the validity of the methods is verified by kinematic simulations.

KW - Arm angle

KW - Inverse kinematics

KW - Joint limit

KW - Redundancy resolution

KW - Redundant manipulator

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Analytical inverse kinematic computation for 7-DOF redundant manipulators with joint limits and its application to redundancy resolution

Abstract

Keywords

ASJC Scopus subject areas

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