Robotics and Neuroscience

In the attempt to build adaptive and intelligent machines, roboticists have looked at neuroscience for more than half a century as a source of inspiration for perception and control. More recently, neuroscientists have resorted to robots for testing hypotheses and validating models of biological ner...

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Published inCurrent biology Vol. 24; no. 18; pp. R910 - R920
Main Authors Floreano, Dario, Ijspeert, Auke Jan, Schaal, Stefan
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 22.09.2014
Subjects
Algorithms
Animals
Brain - physiology
Humans
Invertebrates - physiology
Models, Animal
Models, Theoretical
Neurosciences - trends
Perception
Primates - physiology
Robotics - methods
Vertebrates - physiology
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Abstract In the attempt to build adaptive and intelligent machines, roboticists have looked at neuroscience for more than half a century as a source of inspiration for perception and control. More recently, neuroscientists have resorted to robots for testing hypotheses and validating models of biological nervous systems. Here, we give an overview of the work at the intersection of robotics and neuroscience and highlight the most promising approaches and areas where interactions between the two fields have generated significant new insights. We articulate the work in three sections, invertebrate, vertebrate and primate neuroscience. We argue that robots generate valuable insight into the function of nervous systems, which is intimately linked to behaviour and embodiment, and that brain-inspired algorithms and devices give robots life-like capabilities. In their review, Floreano et al showcase instances where robotics and neuroscience have fruitfully interacted and yielded mutual new insights.
AbstractList In the attempt to build adaptive and intelligent machines, roboticists have looked at neuroscience for more than half a century as a source of inspiration for perception and control. More recently, neuroscientists have resorted to robots for testing hypotheses and validating models of biological nervous systems. Here, we give an overview of the work at the intersection of robotics and neuroscience and highlight the most promising approaches and areas where interactions between the two fields have generated significant new insights. We articulate the work in three sections, invertebrate, vertebrate and primate neuroscience. We argue that robots generate valuable insight into the function of nervous systems, which is intimately linked to behaviour and embodiment, and that brain-inspired algorithms and devices give robots life-like capabilities.
In the attempt to build adaptive and intelligent machines, roboticists have looked at neuroscience for more than half a century as a source of inspiration for perception and control. More recently, neuroscientists have resorted to robots for testing hypotheses and validating models of biological nervous systems. Here, we give an overview of the work at the intersection of robotics and neuroscience and highlight the most promising approaches and areas where interactions between the two fields have generated significant new insights. We articulate the work in three sections, invertebrate, vertebrate and primate neuroscience. We argue that robots generate valuable insight into the function of nervous systems, which is intimately linked to behaviour and embodiment, and that brain-inspired algorithms and devices give robots life-like capabilities. In their review, Floreano et al showcase instances where robotics and neuroscience have fruitfully interacted and yielded mutual new insights.
In the attempt to build adaptive and intelligent machines, roboticists have looked at neuroscience for more than half a century as a source of inspiration for perception and control. More recently, neuroscientists have resorted to robots for testing hypotheses and validating models of biological nervous systems. Here, we give an overview of the work at the intersection of robotics and neuroscience and highlight the most promising approaches and areas where interactions between the two fields have generated significant new insights. We articulate the work in three sections, invertebrate, vertebrate and primate neuroscience. We argue that robots generate valuable insight into the function of nervous systems, which is intimately linked to behaviour and embodiment, and that brain-inspired algorithms and devices give robots life-like capabilities.In the attempt to build adaptive and intelligent machines, roboticists have looked at neuroscience for more than half a century as a source of inspiration for perception and control. More recently, neuroscientists have resorted to robots for testing hypotheses and validating models of biological nervous systems. Here, we give an overview of the work at the intersection of robotics and neuroscience and highlight the most promising approaches and areas where interactions between the two fields have generated significant new insights. We articulate the work in three sections, invertebrate, vertebrate and primate neuroscience. We argue that robots generate valuable insight into the function of nervous systems, which is intimately linked to behaviour and embodiment, and that brain-inspired algorithms and devices give robots life-like capabilities.
Author Floreano, Dario
Ijspeert, Auke Jan
Schaal, Stefan
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  organization: Max-Planck-Institute for Intelligent Systems, Spemannstrasse 41, 72076 Tübingen, Germany, & University of Southern California, Ronald Tutor Hall RTH 401, 3710 S. McClintock Avenue, Los Angeles, CA 90089-2905, USA
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Snippet In the attempt to build adaptive and intelligent machines, roboticists have looked at neuroscience for more than half a century as a source of inspiration for...
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SubjectTerms Algorithms
Animals
Brain - physiology
Humans
Invertebrates - physiology
Models, Animal
Models, Theoretical
Neurosciences - trends
Perception
Primates - physiology
Robotics - methods
Vertebrates - physiology
Title Robotics and Neuroscience
URI https://dx.doi.org/10.1016/j.cub.2014.07.058
https://www.ncbi.nlm.nih.gov/pubmed/25247370
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Volume 24
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