2023
DOI: 10.1088/1748-3190/acc223
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A virtuous cycle between invertebrate and robotics research: perspective on a decade of Living Machines research

Abstract: Many invertebrates are ideal model systems on which to base robot design principles due to their success in solving seemingly complex tasks across domains while possessing smaller nervous systems than vertebrates. Three areas are particularly relevant for robot designers: Research on flying and crawling invertebrates has inspired new materials and geometries from which robot bodies (their morphologies) can be constructed, enabling a new generation of softer, smaller, and lighter robots. Research on walking ins… Show more

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Cited by 6 publications
(4 citation statements)
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References 144 publications
(202 reference statements)
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“…There is growing empirical evidence suggesting that some common insects like fruit flies feel pain [54] . In his Whitehead lectures [55] , Peter Godfrey-Smith explains that insect pain was not recognized until very recently because insects do not seem to engage in behaviors like wound-tending for bodily injury. If the insect loses a leg it might continue on without much of a change in disposition.…”
Section: Machine Painmentioning
confidence: 99%
“…There is growing empirical evidence suggesting that some common insects like fruit flies feel pain [54] . In his Whitehead lectures [55] , Peter Godfrey-Smith explains that insect pain was not recognized until very recently because insects do not seem to engage in behaviors like wound-tending for bodily injury. If the insect loses a leg it might continue on without much of a change in disposition.…”
Section: Machine Painmentioning
confidence: 99%
“…Since neuronal recordings are difficult to obtain in navigating insects, computational neuroscience and robotics have been integral in bridging the gap between observed insect navigation behaviours and theories of neural computation ( Mangan et al, 2023 ) not least as we have such good knowledge of the connectivity detailed above. In this neuroethological approach, theories of what strategies or neural architecture insects use to navigate are embodied in simulation or physically on robots.…”
Section: Introductionmentioning
confidence: 99%
“…For example, it has been recently argued ( 1 , 2 ) that unlocking the potential of new neuromorphic hardware for robotics requires a better understanding of the computing principles of real biological brains. Insect brains in particular ( 3 7 ) provide a powerful combination of efficiency and effectiveness, as well as tractability for understanding and emulating the details of their functional architecture. Here, we provide an exemplar of such an approach, implementing a network for visual route memory on neuromorphic hardware that drew directly on recent insights from insect neuroscience.…”
Section: Introductionmentioning
confidence: 99%