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Digital fabrication of a novel bio-actuator for bio-robotic art and design

Digital fabrication of a novel bio-actuator for bio-robotic art and design
Digital fabrication of a novel bio-actuator for bio-robotic art and design

We describe the design, fabrication and testing of a biologically-driven actuator which serves as a proof-or-concept "artificial heartbeat" for future use within bio-robotic art and design. The actuator employs live biological material, both as a source of power and means of actuation. Pneumatic pressure generated by the action of the yeast Saccharomyces cerevisiae causes a diaphragm to distend. Movement of the diaphragm is regulated by a purpose-built control valve. When the diaphragm is fully distended, the valve opens to release pressure, returning the actuator to its state of rest in readiness for the next actuation cycle. The control valve employs a temperature-responsive NiTi "artificial muscle" which is activated when heated electrically using power generated by microbial fuel cells. In an alternative embodiment, the NiTi valve is powered by solar energy via photovoltaic panels. Results are presented showing the performance of devices powered by both energy sources. The structure of the bio-actuator is fabricated by 3D printing and rapid tooling techniques. Bio-actuation may be employed for such functions as shape-change, pumping and propulsion. Possible applications for the physical principles described in this paper range from energy autonomous robotics and artificial life to artworks which creatively exploit robotic and bio-technology.

496-499
Walters, Peter
bd3c8d84-89e5-4100-bd86-e67fa7e9ffd3
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13
McGoran, David
2cd8b05e-3d8a-4163-a0db-0768a17ba758
Walters, Peter
bd3c8d84-89e5-4100-bd86-e67fa7e9ffd3
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13
McGoran, David
2cd8b05e-3d8a-4163-a0db-0768a17ba758

Walters, Peter, Ieropoulos, Ioannis and McGoran, David (2011) Digital fabrication of a novel bio-actuator for bio-robotic art and design. In NIP27: 27th International Conference on Digital Printing Technologies and Digital Fabrication 2011 - Technical Programs and Proceedings. pp. 496-499 .

Record type: Conference or Workshop Item (Paper)

Abstract

We describe the design, fabrication and testing of a biologically-driven actuator which serves as a proof-or-concept "artificial heartbeat" for future use within bio-robotic art and design. The actuator employs live biological material, both as a source of power and means of actuation. Pneumatic pressure generated by the action of the yeast Saccharomyces cerevisiae causes a diaphragm to distend. Movement of the diaphragm is regulated by a purpose-built control valve. When the diaphragm is fully distended, the valve opens to release pressure, returning the actuator to its state of rest in readiness for the next actuation cycle. The control valve employs a temperature-responsive NiTi "artificial muscle" which is activated when heated electrically using power generated by microbial fuel cells. In an alternative embodiment, the NiTi valve is powered by solar energy via photovoltaic panels. Results are presented showing the performance of devices powered by both energy sources. The structure of the bio-actuator is fabricated by 3D printing and rapid tooling techniques. Bio-actuation may be employed for such functions as shape-change, pumping and propulsion. Possible applications for the physical principles described in this paper range from energy autonomous robotics and artificial life to artworks which creatively exploit robotic and bio-technology.

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More information

Published date: 2011
Additional Information: Copyright: Copyright 2012 Elsevier B.V., All rights reserved.
Venue - Dates: 27th International Conference on Digital Printing Technologies, NIP27 and 7th International Conference on Digital Fabrication 2011, , Minneapolis, MN, United States, 2011-10-02 - 2011-10-06
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Identifiers

Local EPrints ID: 454621
URI: http://eprints.soton.ac.uk/id/eprint/454621
PURE UUID: f765f8d9-900b-4dcc-87e0-8b48c0e384db
ORCID for Ioannis Ieropoulos: ORCID iD orcid.org/0000-0002-9641-5504

Catalogue record

Date deposited: 17 Feb 2022 17:39
Last modified: 23 Jul 2022 02:31

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Contributors

Author: Peter Walters
Author: Ioannis Ieropoulos ORCID iD
Author: David McGoran

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