2022
DOI: 10.1002/aisy.202200120
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Morphologically Adaptive Crash Landing on a Wall: Soft‐Bodied Models of Gliding Geckos with Varying Material Stiffnesses

Abstract: Landing on vertical surfaces in challenging environments is a critical ability for multimodal robots—it allows the robot to hold position above the ground without expending energy to hover. Asian flat‐tailed geckos (Hemidactylus platyurus) are observed to glide and perch on vertical surfaces by relying on their tail and body morphology, potentially reducing the control effort to perch. This novel perching mechanism using a bioinspired physical model is discussed and its tail and body parameters to determine th… Show more

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Cited by 7 publications
(3 citation statements)
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“…Unlike UAVs, perching and grasping will reduce the reliance on lift generation and thus energy expended. It will also enable the robot to hold position with minimal control effort which is often required for data collection ( Roderick et al, 2021 ; Siddall et al, 2021 ; Chellapurath et al, 2022 ). Glide capabilities, like in animals ( Zhao et al, 2019 ; Khandelwal and Hedrick, 2022 ), can increase the flight time by reducing the dependence on powered flight, reduce noise pollution and make them more robust to aerial perturbations.…”
Section: Future Trends In Bioinspired Robotics Benefit Nature Conserv...mentioning
confidence: 99%
“…Unlike UAVs, perching and grasping will reduce the reliance on lift generation and thus energy expended. It will also enable the robot to hold position with minimal control effort which is often required for data collection ( Roderick et al, 2021 ; Siddall et al, 2021 ; Chellapurath et al, 2022 ). Glide capabilities, like in animals ( Zhao et al, 2019 ; Khandelwal and Hedrick, 2022 ), can increase the flight time by reducing the dependence on powered flight, reduce noise pollution and make them more robust to aerial perturbations.…”
Section: Future Trends In Bioinspired Robotics Benefit Nature Conserv...mentioning
confidence: 99%
“…(E) Soft physical models enable the investigation of the effects of morphology and the underlying movement control on gliding locomotion. Chellapurath and colleagues ( 2022 ) used a soft physical model to show the importance of torso and tail stiffness in gliding geckos to successfully perch on vertical substrates in the absence of enlarged aerodynamic surfaces (adapted from Chellapurath et al, 2022 ). 3D rendering of the soft physical model of the gecko by Dr Mrudul Chellapurath.…”
Section: Non-flapping Flyersmentioning
confidence: 99%
“…These platforms act as powerful tools to interact with real-world surroundings and in doing so, serve as a test bed to explore parameters, inform models, and test various hypotheses (an approach also known as ‘robophysics’; Aguilar et al, 2016 ). Chellapurath and colleagues used a simple and inexpensive soft physical model to replicate the perching behavior of gliding geckos, which is extremely challenging to elicit in live specimens ( Chellapurath et al, 2022 ; Fig. 2 E).…”
Section: Technological Innovationsmentioning
confidence: 99%