A Biarticulated Robotic Leg for Jumping Movements: Theory and Experiments

J. Babič; Bokman Lim; D. Omrčen; F. C. Park; J. Lenarčič

Source: Journal of Mechanisms and Robotics:;2009:;volume( 001 ):;issue: 001::page 11013

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DOI: 10.1115/1.2963028

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: This paper investigates the extent to which biarticular actuation mechanisms—spring-driven redundant actuation schemes that extend over two joints, similar in function to biarticular muscles found in legged animals—improve the performance of jumping and other fast explosive robot movements. Robust numerical optimization algorithms that take into account the complex dynamics of both the redundantly actuated system and frictional contact forces are developed. We then quantitatively evaluate the gains in vertical jumping vis-à-vis monoarticular and biarticular joint actuation schemes and examine the effects of spring stiffness and activation angle on overall jump performance. Both numerical simulations and experiments with a hardware prototype of a biarticular legged robot are reported.

keyword(s): Motion , Robots , Hardware , Engineering prototypes , Optimization , Springs , Stiffness , Mechanisms , Force AND Robotics ,

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A Biarticulated Robotic Leg for Jumping Movements: Theory and Experiments

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contributor author	J. Babič
contributor author	Bokman Lim
contributor author	D. Omrčen
contributor author	F. C. Park
contributor author	J. Lenarčič
date accessioned	2017-05-09T00:34:38Z
date available	2017-05-09T00:34:38Z
date copyright	February, 2009
date issued	2009
identifier issn	1942-4302
identifier other	JMROA6-27973#011013_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/141513
description abstract	This paper investigates the extent to which biarticular actuation mechanisms—spring-driven redundant actuation schemes that extend over two joints, similar in function to biarticular muscles found in legged animals—improve the performance of jumping and other fast explosive robot movements. Robust numerical optimization algorithms that take into account the complex dynamics of both the redundantly actuated system and frictional contact forces are developed. We then quantitatively evaluate the gains in vertical jumping vis-à-vis monoarticular and biarticular joint actuation schemes and examine the effects of spring stiffness and activation angle on overall jump performance. Both numerical simulations and experiments with a hardware prototype of a biarticular legged robot are reported.
publisher	The American Society of Mechanical Engineers (ASME)
title	A Biarticulated Robotic Leg for Jumping Movements: Theory and Experiments
type	Journal Paper
journal volume	1
journal issue	1
journal title	Journal of Mechanisms and Robotics
identifier doi	10.1115/1.2963028
journal fristpage	11013
identifier eissn	1942-4310
keywords	Motion
keywords	Robots
keywords	Hardware
keywords	Engineering prototypes
keywords	Optimization
keywords	Springs
keywords	Stiffness
keywords	Mechanisms
keywords	Force AND Robotics
tree	Journal of Mechanisms and Robotics:;2009:;volume( 001 ):;issue: 001
contenttype	Fulltext

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