Design and rolling analysis of a novel deformable polyhedron robot

Yaobin Tian; Xiangzhi Wei; Ajay Joneja; Yan An Yao

doi:10.5772/59117

Design and rolling analysis of a novel deformable polyhedron robot

Yaobin Tian
, Xiangzhi Wei
, Ajay Joneja
, Yan An Yao^*

^*Corresponding author for this work

Beijing Jiaotong University
Hong Kong University of Science and Technology

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

9 Scopus citations

Abstract

In this paper, a new rolling robot is proposed. The mechanism of the robot consists of eight links with three degrees of freedom (DOFs). The shape of each link of the robot is an equilateral triangle. The robot realizes its direction switching function by deforming into different modes of planar parallelogram mechanisms (PPM). In any deterministic mode, the robot can roll on the ground. The motion of the robot is studied based on the kinematic and zero moment point (ZMP) analyses. Though the robot has three DOFs, we show that it can realize flexible mobility via direction switching and rolling functions with two DOFs and one DOF, respectively. A prototype robot was manufactured. A series of simulations and experiments done using this prototype is reported, verifying the feasibility of the design.

Original language	English
Article number	175
Journal	International Journal of Advanced Robotic Systems
Volume	11
DOIs	https://doi.org/10.5772/59117
State	Published - 29 Oct 2014
Externally published	Yes

Keywords

Folding function
Mobile robot
Rolling locomotion
ZMP analysis

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title = "Design and rolling analysis of a novel deformable polyhedron robot",

abstract = "In this paper, a new rolling robot is proposed. The mechanism of the robot consists of eight links with three degrees of freedom (DOFs). The shape of each link of the robot is an equilateral triangle. The robot realizes its direction switching function by deforming into different modes of planar parallelogram mechanisms (PPM). In any deterministic mode, the robot can roll on the ground. The motion of the robot is studied based on the kinematic and zero moment point (ZMP) analyses. Though the robot has three DOFs, we show that it can realize flexible mobility via direction switching and rolling functions with two DOFs and one DOF, respectively. A prototype robot was manufactured. A series of simulations and experiments done using this prototype is reported, verifying the feasibility of the design.",

keywords = "Folding function, Mobile robot, Rolling locomotion, ZMP analysis",

author = "Yaobin Tian and Xiangzhi Wei and Ajay Joneja and Yao, \{Yan An\}",

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year = "2014",

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T1 - Design and rolling analysis of a novel deformable polyhedron robot

AU - Tian, Yaobin

AU - Wei, Xiangzhi

AU - Joneja, Ajay

AU - Yao, Yan An

PY - 2014/10/29

Y1 - 2014/10/29

N2 - In this paper, a new rolling robot is proposed. The mechanism of the robot consists of eight links with three degrees of freedom (DOFs). The shape of each link of the robot is an equilateral triangle. The robot realizes its direction switching function by deforming into different modes of planar parallelogram mechanisms (PPM). In any deterministic mode, the robot can roll on the ground. The motion of the robot is studied based on the kinematic and zero moment point (ZMP) analyses. Though the robot has three DOFs, we show that it can realize flexible mobility via direction switching and rolling functions with two DOFs and one DOF, respectively. A prototype robot was manufactured. A series of simulations and experiments done using this prototype is reported, verifying the feasibility of the design.

AB - In this paper, a new rolling robot is proposed. The mechanism of the robot consists of eight links with three degrees of freedom (DOFs). The shape of each link of the robot is an equilateral triangle. The robot realizes its direction switching function by deforming into different modes of planar parallelogram mechanisms (PPM). In any deterministic mode, the robot can roll on the ground. The motion of the robot is studied based on the kinematic and zero moment point (ZMP) analyses. Though the robot has three DOFs, we show that it can realize flexible mobility via direction switching and rolling functions with two DOFs and one DOF, respectively. A prototype robot was manufactured. A series of simulations and experiments done using this prototype is reported, verifying the feasibility of the design.

KW - Folding function

KW - Mobile robot

KW - Rolling locomotion

KW - ZMP analysis

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DO - 10.5772/59117

M3 - 文章

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SN - 1729-8806

VL - 11

JO - International Journal of Advanced Robotic Systems

JF - International Journal of Advanced Robotic Systems

M1 - 175

ER -

Design and rolling analysis of a novel deformable polyhedron robot

Abstract

Keywords

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