Design of a Cam-Actuated Robotic Leg

Diane L. Peters; Steven Chen

doi:10.1115/IMECE2014-39803

Design of a Cam-Actuated Robotic Leg

Diane L. Peters, Steven Chen

Kettering University

Research output: Contribution to conference › Presentation

Abstract

This paper presents a concept for a single-degree-of-freedom robotic leg, where the lower and upper leg are each controlled by a cam. The two cams are mounted on a common shaft, and are rotating at the same speed. The relevant equations for the mechanism’s kinematics are first developed, to express the position of the foot in terms of the cam’s angular displacement and various design parameters such as link lengths. Next, the design problem is formulated as an optimization, where the objective is to minimize an error metric that compares the foot position to the desired trajectory of the foot. The constraints in the optimization problem include important parameters such as the pressure angle of the cams, as well as a set of constraints to ensure that the leg will fit on an appropriately sized legged robot. Finally, the results are discussed, with a focus on what the advantages and disadvantages of this leg design might be as compared to other types of robotic leg designs.

Original language	American English
DOIs	https://doi.org/10.1115/IMECE2014-39803
State	Published - Mar 13 2015
Event	ASME 2014 International Mechanical Engineering Congress and Exposition - Duration: Mar 13 2015 → …

Conference

Conference	ASME 2014 International Mechanical Engineering Congress and Exposition
Period	3/13/15 → …

Disciplines

Mechanical Engineering

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Cite this

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title = "Design of a Cam-Actuated Robotic Leg",

abstract = " This paper presents a concept for a single-degree-of-freedom robotic leg, where the lower and upper leg are each controlled by a cam. The two cams are mounted on a common shaft, and are rotating at the same speed. The relevant equations for the mechanism{\textquoteright}s kinematics are first developed, to express the position of the foot in terms of the cam{\textquoteright}s angular displacement and various design parameters such as link lengths. Next, the design problem is formulated as an optimization, where the objective is to minimize an error metric that compares the foot position to the desired trajectory of the foot. The constraints in the optimization problem include important parameters such as the pressure angle of the cams, as well as a set of constraints to ensure that the leg will fit on an appropriately sized legged robot. Finally, the results are discussed, with a focus on what the advantages and disadvantages of this leg design might be as compared to other types of robotic leg designs. ",

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AU - Chen, Steven

N1 - This paper presents a concept for a single-degree-of-freedom robotic leg, where the lower and upper leg are each controlled by a cam. The two cams are mounted on a common shaft, and are rotating at the same speed.

PY - 2015/3/13

Y1 - 2015/3/13

N2 - This paper presents a concept for a single-degree-of-freedom robotic leg, where the lower and upper leg are each controlled by a cam. The two cams are mounted on a common shaft, and are rotating at the same speed. The relevant equations for the mechanism’s kinematics are first developed, to express the position of the foot in terms of the cam’s angular displacement and various design parameters such as link lengths. Next, the design problem is formulated as an optimization, where the objective is to minimize an error metric that compares the foot position to the desired trajectory of the foot. The constraints in the optimization problem include important parameters such as the pressure angle of the cams, as well as a set of constraints to ensure that the leg will fit on an appropriately sized legged robot. Finally, the results are discussed, with a focus on what the advantages and disadvantages of this leg design might be as compared to other types of robotic leg designs.

AB - This paper presents a concept for a single-degree-of-freedom robotic leg, where the lower and upper leg are each controlled by a cam. The two cams are mounted on a common shaft, and are rotating at the same speed. The relevant equations for the mechanism’s kinematics are first developed, to express the position of the foot in terms of the cam’s angular displacement and various design parameters such as link lengths. Next, the design problem is formulated as an optimization, where the objective is to minimize an error metric that compares the foot position to the desired trajectory of the foot. The constraints in the optimization problem include important parameters such as the pressure angle of the cams, as well as a set of constraints to ensure that the leg will fit on an appropriately sized legged robot. Finally, the results are discussed, with a focus on what the advantages and disadvantages of this leg design might be as compared to other types of robotic leg designs.

UR - https://asmedigitalcollection.asme.org/IMECE/proceedings-abstract/IMECE2014/46606/V011T14A035/260921

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M3 - Presentation

T2 - ASME 2014 International Mechanical Engineering Congress and Exposition

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ER -

Design of a Cam-Actuated Robotic Leg

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