Dynamic end target part conveyance using an autonomous morphing surface

Martin Sinclair; Ioannis A. Raptis

doi:10.1109/TePRA.2015.7219665

Dynamic end target part conveyance using an autonomous morphing surface

Martin Sinclair, Ioannis A. Raptis

University of Massachusetts Lowell

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

Abstract

Large-Scale Actuator Networks (LSANs) are a rapidly growing class of electro-mechanical systems. A prime implementation of LSANs in the industrial sector is distributed manipulation. Some distributed manipulators include: vibrating plates, arrays of air jets, and mobile multi-robot teams. This paper examines an autonomous morphing surface that reconfigures itself using an array of linear actuators to translate an object. The cooperative behavior of the network outweighs the limitations of the individual single Degree of Freedom (DOF) actuators, allowing the mechanism to form complex configurations to convey the object. A detailed derivation of the kinematics and limitations of an arbitrary multi-cell surface is given. The allowable actuators alignments of the LSAN determine the available control resources and the total DOF of the surface. Simulation results combined with the actual implementation to the prototype illustrate the advantage of this technology over standard static feeders.

Original language	English
Title of host publication	2015 IEEE International Conference on Technologies for Practical Robot Applications, TePRA 2015
Publisher	IEEE Computer Society
ISBN (Electronic)	9781479987573, 9781479987573
DOIs	https://doi.org/10.1109/TePRA.2015.7219665
State	Published - Aug 24 2015
Externally published	Yes
Event	IEEE International Conference on Technologies for Practical Robot Applications, TePRA 2015 - Woburn, United States Duration: May 11 2015 → May 12 2015

Publication series

Name	IEEE Conference on Technologies for Practical Robot Applications, TePRA
Volume	2015-August
ISSN (Print)	2325-0526
ISSN (Electronic)	2325-0534

Conference

Conference	IEEE International Conference on Technologies for Practical Robot Applications, TePRA 2015
Country/Territory	United States
City	Woburn
Period	05/11/15 → 05/12/15

Keywords

Actuators
Kinematics
Manipulators
Mathematical model
Prototypes
Surface morphology
Surface waves

Access to Document

10.1109/TePRA.2015.7219665

Cite this

Sinclair, M., & Raptis, I. A. (2015). Dynamic end target part conveyance using an autonomous morphing surface. In 2015 IEEE International Conference on Technologies for Practical Robot Applications, TePRA 2015 Article 7219665 (IEEE Conference on Technologies for Practical Robot Applications, TePRA; Vol. 2015-August). IEEE Computer Society. https://doi.org/10.1109/TePRA.2015.7219665

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title = "Dynamic end target part conveyance using an autonomous morphing surface",

abstract = "Large-Scale Actuator Networks (LSANs) are a rapidly growing class of electro-mechanical systems. A prime implementation of LSANs in the industrial sector is distributed manipulation. Some distributed manipulators include: vibrating plates, arrays of air jets, and mobile multi-robot teams. This paper examines an autonomous morphing surface that reconfigures itself using an array of linear actuators to translate an object. The cooperative behavior of the network outweighs the limitations of the individual single Degree of Freedom (DOF) actuators, allowing the mechanism to form complex configurations to convey the object. A detailed derivation of the kinematics and limitations of an arbitrary multi-cell surface is given. The allowable actuators alignments of the LSAN determine the available control resources and the total DOF of the surface. Simulation results combined with the actual implementation to the prototype illustrate the advantage of this technology over standard static feeders.",

keywords = "Actuators, Kinematics, Manipulators, Mathematical model, Prototypes, Surface morphology, Surface waves",

author = "Martin Sinclair and Raptis, \{Ioannis A.\}",

note = "Publisher Copyright: {\textcopyright} 2015 IEEE.; IEEE International Conference on Technologies for Practical Robot Applications, TePRA 2015 ; Conference date: 11-05-2015 Through 12-05-2015",

year = "2015",

month = aug,

day = "24",

doi = "10.1109/TePRA.2015.7219665",

language = "English",

series = "IEEE Conference on Technologies for Practical Robot Applications, TePRA",

publisher = "IEEE Computer Society",

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Sinclair, M & Raptis, IA 2015, Dynamic end target part conveyance using an autonomous morphing surface. in 2015 IEEE International Conference on Technologies for Practical Robot Applications, TePRA 2015., 7219665, IEEE Conference on Technologies for Practical Robot Applications, TePRA, vol. 2015-August, IEEE Computer Society, IEEE International Conference on Technologies for Practical Robot Applications, TePRA 2015, Woburn, United States, 05/11/15. https://doi.org/10.1109/TePRA.2015.7219665

Dynamic end target part conveyance using an autonomous morphing surface. / Sinclair, Martin; Raptis, Ioannis A.
2015 IEEE International Conference on Technologies for Practical Robot Applications, TePRA 2015. IEEE Computer Society, 2015. 7219665 (IEEE Conference on Technologies for Practical Robot Applications, TePRA; Vol. 2015-August).

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

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AU - Raptis, Ioannis A.

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N2 - Large-Scale Actuator Networks (LSANs) are a rapidly growing class of electro-mechanical systems. A prime implementation of LSANs in the industrial sector is distributed manipulation. Some distributed manipulators include: vibrating plates, arrays of air jets, and mobile multi-robot teams. This paper examines an autonomous morphing surface that reconfigures itself using an array of linear actuators to translate an object. The cooperative behavior of the network outweighs the limitations of the individual single Degree of Freedom (DOF) actuators, allowing the mechanism to form complex configurations to convey the object. A detailed derivation of the kinematics and limitations of an arbitrary multi-cell surface is given. The allowable actuators alignments of the LSAN determine the available control resources and the total DOF of the surface. Simulation results combined with the actual implementation to the prototype illustrate the advantage of this technology over standard static feeders.

AB - Large-Scale Actuator Networks (LSANs) are a rapidly growing class of electro-mechanical systems. A prime implementation of LSANs in the industrial sector is distributed manipulation. Some distributed manipulators include: vibrating plates, arrays of air jets, and mobile multi-robot teams. This paper examines an autonomous morphing surface that reconfigures itself using an array of linear actuators to translate an object. The cooperative behavior of the network outweighs the limitations of the individual single Degree of Freedom (DOF) actuators, allowing the mechanism to form complex configurations to convey the object. A detailed derivation of the kinematics and limitations of an arbitrary multi-cell surface is given. The allowable actuators alignments of the LSAN determine the available control resources and the total DOF of the surface. Simulation results combined with the actual implementation to the prototype illustrate the advantage of this technology over standard static feeders.

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KW - Kinematics

KW - Manipulators

KW - Mathematical model

KW - Prototypes

KW - Surface morphology

KW - Surface waves

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M3 - Conference contribution

T3 - IEEE Conference on Technologies for Practical Robot Applications, TePRA

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PB - IEEE Computer Society

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ER -

Dynamic end target part conveyance using an autonomous morphing surface

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