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X. D. Arsiwalla
and
Verschure, P. &
,
“
Computing Information Integration in Brain Networks.
”
,
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Schaal S
and
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“
Computational motor control in humans and robots.
”
,
Curr. Opin. Neurobiol.
, vol. 15, 2005.
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Kevin Gurney
,
Prescott, T. J.
,
Jeffery R. Wickens,
, and
Peter Redgrave,
“
Computational models of the basal ganglia: from robots to membranes
”
,
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Kim KJ
and
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“
A comprehensive overview of the applications of artificial life.
”
,
Artif Life.
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C. Moulin-Frier
and
Verschure, P. F. &
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“
Comment on" Towards a Computational Comparative Neuroprimatology: Framing the language-ready brain" by Michael A. Arbib.
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,
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P. DeLellis
and
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,
“
Collective behaviour across animal species.
”
,
Scientific Reports
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L. Ogiela
and
Ogiela, M. R.
,
“
Cognitive Systems and Artificial Brains
”
, in
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Pfeifer, R.
,
Iida, F.
, and
Lungarella, M.
,
“
Cognition from the bottom up: on biological inspiration, body morphology, and soft materials
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Stefano Nolfi
,
“
Co-evolving predator and prey robots
”
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Adaptive Behavior
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L. L. Bologna
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Pinoteau, J.
,
Passot, J. B.
,
Garrido, J. A.
,
Vogel, J.
,
Vidal, E. R.
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“
A closed-loop neurobotic system for fine touch sensing
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Journal of Neural Engineering
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V. Kopman
,
Laut, J.
,
Polverino, G.
, and
Porfir, M.
,
“
Closed-loop control of zebrafish response using a bioinspired robotic-fish in a preference test
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R. D. Pinzon-Morales
and
Hirata, Y.
,
“
Cerebellar-inspired bi-hemispheric neural network for adaptive control of an unstable robot
”
,
Biosignals and Biorobotics Conference (BRC)
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B
Mikhail A. Lebedev
and
Miguel A.L. Nicolelis,
“
Brain–machine interfaces: past, present and future
”
,
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ALAIN BERTHOZ
,
The brain's sense of movement
, Editions Odile Jacob 1997th ed. Copyright © 2000 by the President and Fellows of Harvard College, 2000, p. 328.
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S. B. Olsson
,
Challiss, R. A. J.
,
Cole, M.
,
Gardeniers, J. G. E.
,
Gardner, J. W.
,
Guerrero, A.
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Biosynthetic infochemical communication.
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Bioinspiration & biomimetics
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A. J. Ijspeert
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“
Biorobotics: Using robots to emulate and investigate agile locomotion
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,
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Bar-Cohen, Y.
,
“
Biomimetics--using nature to inspire human innovation.
”
,
Bioinspir Biomim.
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Julian F.V Vincent
,
Olga A Bogatyreva,
,
Nikolaj R Bogatyrev,
,
Adrian Bowyer,
, and
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,
“
Biomimetics: its practice and theory
”
,
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Yoseph Bar-Cohen
,
Biomimetics: biologically inspired technologies
. Boston: CR press, Taylor & Fran Group, 2006.
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W. Jon. P. Barnes
,
“
Biomimetic Solutions to Sticky Problems
”
,
Science
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Witte H
,
Hoffmann H,
,
Hackert R,
,
Schilling C, Fischer MS,
, and
Preuschoft H,
“
Biomimetic robotics should be based on functional morphology.
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,
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A. Villanueva
,
Smith, C.
, and
Priya, S.
,
“
A biomimetic robotic jellyfish (Robojelly) actuated by shape memory alloy composite actuators
”
,
Bioinspiration & Biomimetics
, vol. 6, no. 3, 2011.
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S. - W. Yeom
and
Oh, I. - K.
,
“
A biomimetic jellyfish robot based on ionic polymer metal composite actuators
”
,
Smart Materials and Structures
, vol. 18, no. 9, 2009.
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J. D. Talasek
,
“
Biomimetic buildings
”
,
Proc Natl Acad Sci USA
, vol. 110, no. 7, 2013.
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Andrew H. Fagg
,
Nicholas G. Hatsopoulos,
,
Victor de Lafuente6,
,
Karen A. Moxon,
,
Nemati, S.
,
James M. Rebesco,
,
Ranulfo Romo,
,
Sara A. Solla,
,
Jake Reimer,
,
Dennis Tkach,
,
Eric A. Pohlmeyer,
, and
Miller, L. E.
,
“
Biomimetic Brain Machine Interfaces for the Control of Movement
”
,
The Journal of Neuroscience
, vol. 27, no. 44, 2007.
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