A method to escape Painlevé paradox in a two-link robotic manipulator

Mohammed Ghazy; Hisham Elkaranshawy

doi:10.1109/ICEngTechnol.2012.6396161

A method to escape Painlevé paradox in a two-link robotic manipulator

Mohammed Ghazy^*, Hisham Elkaranshawy

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Scopus citations

Abstract

When the tip of the second link of a two-link robotic manipulator is sliding on a dry rough surface, the motion could go through a range of inconsistency or indeterminacy known as the Painlevé paradox. In this research a new method for eliminating the Painlevé paradox is proposed. A paradox index is specified and for any specific distance between the fixed pivot and the contact surface, the index changes along a specific curve during the motion. Calculating and monitoring the index specifies how close is the robot from the paradox zone. Whenever the robot is closed enough to the paradox zone the distance between the fixed pivot and the contact surface instantaneously decreases. Hence, the robot goes away from the paradox and the index follows another curve during the subsequent motion. The same action will be repeated till the system reaches the critical height of the pivot height at which the system leaves the surface just before the paradox starts.

Original language	English
Title of host publication	International Conference on Engineering and Technology, ICET 2012 - Conference Booklet
DOIs	https://doi.org/10.1109/ICEngTechnol.2012.6396161
State	Published - 2012
Externally published	Yes

Publication series

Name	International Conference on Engineering and Technology, ICET 2012 - Conference Booklet

Keywords

Non-smooth dynamics
robotic system
unilateral constraint

ASJC Scopus subject areas

Computer Networks and Communications

Access to Document

10.1109/ICEngTechnol.2012.6396161

Cite this

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title = "A method to escape Painlev{\'e} paradox in a two-link robotic manipulator",

abstract = "When the tip of the second link of a two-link robotic manipulator is sliding on a dry rough surface, the motion could go through a range of inconsistency or indeterminacy known as the Painlev{\'e} paradox. In this research a new method for eliminating the Painlev{\'e} paradox is proposed. A paradox index is specified and for any specific distance between the fixed pivot and the contact surface, the index changes along a specific curve during the motion. Calculating and monitoring the index specifies how close is the robot from the paradox zone. Whenever the robot is closed enough to the paradox zone the distance between the fixed pivot and the contact surface instantaneously decreases. Hence, the robot goes away from the paradox and the index follows another curve during the subsequent motion. The same action will be repeated till the system reaches the critical height of the pivot height at which the system leaves the surface just before the paradox starts.",

keywords = "Non-smooth dynamics, robotic system, unilateral constraint",

author = "Mohammed Ghazy and Hisham Elkaranshawy",

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doi = "10.1109/ICEngTechnol.2012.6396161",

language = "English",

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A method to escape Painlevé paradox in a two-link robotic manipulator. / Ghazy, Mohammed; Elkaranshawy, Hisham.
International Conference on Engineering and Technology, ICET 2012 - Conference Booklet. 2012. 6396161 (International Conference on Engineering and Technology, ICET 2012 - Conference Booklet).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

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AU - Ghazy, Mohammed

AU - Elkaranshawy, Hisham

PY - 2012

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N2 - When the tip of the second link of a two-link robotic manipulator is sliding on a dry rough surface, the motion could go through a range of inconsistency or indeterminacy known as the Painlevé paradox. In this research a new method for eliminating the Painlevé paradox is proposed. A paradox index is specified and for any specific distance between the fixed pivot and the contact surface, the index changes along a specific curve during the motion. Calculating and monitoring the index specifies how close is the robot from the paradox zone. Whenever the robot is closed enough to the paradox zone the distance between the fixed pivot and the contact surface instantaneously decreases. Hence, the robot goes away from the paradox and the index follows another curve during the subsequent motion. The same action will be repeated till the system reaches the critical height of the pivot height at which the system leaves the surface just before the paradox starts.

AB - When the tip of the second link of a two-link robotic manipulator is sliding on a dry rough surface, the motion could go through a range of inconsistency or indeterminacy known as the Painlevé paradox. In this research a new method for eliminating the Painlevé paradox is proposed. A paradox index is specified and for any specific distance between the fixed pivot and the contact surface, the index changes along a specific curve during the motion. Calculating and monitoring the index specifies how close is the robot from the paradox zone. Whenever the robot is closed enough to the paradox zone the distance between the fixed pivot and the contact surface instantaneously decreases. Hence, the robot goes away from the paradox and the index follows another curve during the subsequent motion. The same action will be repeated till the system reaches the critical height of the pivot height at which the system leaves the surface just before the paradox starts.

KW - Non-smooth dynamics

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KW - unilateral constraint

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A method to escape Painlevé paradox in a two-link robotic manipulator

Abstract

Publication series

Keywords

ASJC Scopus subject areas

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