Teaching multifunctionality to nonlinear fluidic networks
ORAL
Abstract
Soft robots powered by pressurized fluid are enabling a variety of innovative applications in diverse areas, from biomimetics to rehabilitation. Such soft machines need suitable controllers. Currently, there is no general design strategy for building non-electronic control modules that require few inputs yet enable multiple functionalities.
Here, we demonstrate a fluidic network that acts as just such a multifunctional control device. Crucially, the network structure is designed via a simple computational algorithm, based on recently explored contrastive learning in complex networks. This work presents a practical way to design soft robotic controllers with minimal prior knowledge.
Here, we demonstrate a fluidic network that acts as just such a multifunctional control device. Crucially, the network structure is designed via a simple computational algorithm, based on recently explored contrastive learning in complex networks. This work presents a practical way to design soft robotic controllers with minimal prior knowledge.
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Presenters
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Anne S Meeussen
Harvard University
Authors
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Anne S Meeussen
Harvard University
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Ahmad Zareei
Harvard University
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Adel A Djellouli
Harvard University
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Katia Bertoldi
Harvard University