2019
DOI: 10.3389/frobt.2019.00023
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Dynamic Morphological Computation Through Damping Design of Soft Continuum Robots

Abstract: Inspired by nature, soft robotics aims at enhancing robots capabilities through the use of soft materials. This article presents the study of soft continuum robots which can change their dynamic behavior thanks to a proper design of their damping properties. It enables an under-actuated dynamic strategy to control multi-chamber pneumatic systems using a reduced number of feeding lines. The present work starts from the conceptual investigation of a way to tune the damping properties of soft continuum robots, an… Show more

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Cited by 17 publications
(8 citation statements)
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“…To provide another example, limited range of motion for shoulder, arm, and finger joints promote effective engagement and exploration of the world via grasping (e.g., gripping made easier by fingers not bending backwards) and manipulation within likely fields of view (e.g., arms being more likely to place objects in front of facial sensors). Such near-optimal grips may be further facilitated by the functional resemblance between finger pads and deformable soft robotics manipulators, where degrees of force provide adaptively adjustable contact surfaces, so simplifying control via offloading to morphological ‘computation’ [ 146 ]. By this account, not only do well-designed body plans automatically contribute to adaptive behavior [ 147 ], but such embodied intelligence provides foundations and scaffolding for all cognitive (and affective) development.…”
Section: From Action To Attention and Back Againmentioning
confidence: 99%
“…To provide another example, limited range of motion for shoulder, arm, and finger joints promote effective engagement and exploration of the world via grasping (e.g., gripping made easier by fingers not bending backwards) and manipulation within likely fields of view (e.g., arms being more likely to place objects in front of facial sensors). Such near-optimal grips may be further facilitated by the functional resemblance between finger pads and deformable soft robotics manipulators, where degrees of force provide adaptively adjustable contact surfaces, so simplifying control via offloading to morphological ‘computation’ [ 146 ]. By this account, not only do well-designed body plans automatically contribute to adaptive behavior [ 147 ], but such embodied intelligence provides foundations and scaffolding for all cognitive (and affective) development.…”
Section: From Action To Attention and Back Againmentioning
confidence: 99%
“…Those equations were already adopted in previous works to simulate the morphological control of interconnected inflatable actuators in ( Glozman et al, 2010 ; Di Lallo et al, 2019 ; Gorissen et al, 2019 ; Vasios et al, 2019 ; Ben-Haim et al, 2020 ).…”
Section: Methodsmentioning
confidence: 99%
“…This approach has already been implemented for the locomotion of soft robots with standard soft actuators ( Futran et al, 2018 ; Vasios et al, 2019 ). Similarly, damping layers in soft actuators are also used to obtain morphological control of actuation sequences ( Di Lallo et al, 2019 ). Combining the passive flow restrictors with snap-through actuators further discretizes the actuation sequence, yielding better locomotion ( Gorissen et al, 2019 ) and clear sequences of state transitions in arrays of bistable elastic shells ( Ben-Haim et al, 2020 ).…”
Section: Introductionmentioning
confidence: 99%
“…Developing smarter and better-controlled microoperation units may be a key to addressing this concern [ 207 ]. For instance, the future development of smart microrobots integrated with multichamber systems for spatially defined collection and the storage of GI fluids could provide excellent solutions [ 208 ]. Surgical methods that dissect gut biopsies can harvest microbiota samples and the associated gut tissues in their original structures and thus provide accurate and reliable profiling of microbiota species and study of microbial pathways at the sampling site [ 209 ].…”
Section: Materials For Analysis and Imaging Of Gut Microbiomementioning
confidence: 99%