Mechanisms of collision recovery in flying beetles and flapping-wing robots

Phan, Hoang Vu

doi:10.1126/science.abd3285

Cited by 98 publications

(69 citation statements)

References 45 publications

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“…The use of soft materials is explored in [13] to become collision-resilient and increase its robustness. A special folding mechanism was investigated in [14]. DEA artificial muscle has also been used to try to simulate flapping wings, insects [15], or using a flexible membrane based on origami folding to preserve structural integrity during collisions [16] The soft and compliant nature of the actuators ensures that soft robots are able to provide a safe interaction between the system and the facility to be inspected.…”

Section: Related Workmentioning

confidence: 99%

Soft-Tentacle Gripper for Pipe Crawling to Inspect Industrial Facilities Using UAVs

Rubiales

Soria

Arrue

et al. 2021

Sensors

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This paper presents a crawling mechanism using a soft-tentacle gripper integrated into an unmanned aerial vehicle for pipe inspection in industrial environments. The objective was to allow the aerial robot to perch and crawl along the pipe, minimizing the energy consumption, and allowing to perform contact inspection. This paper introduces the design of the soft limbs of the gripper and also the internal mechanism that allows movement along pipes. Several tests have been carried out to ensure the grasping capability on the pipe and the performance and reliability of the developed system. This paper shows the complete development of the system using additive manufacturing techniques and includes the results of experiments performed in realistic environments.

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Section: Related Workmentioning

confidence: 99%

Soft-Tentacle Gripper for Pipe Crawling to Inspect Industrial Facilities Using UAVs

Rubiales

Soria

Arrue

et al. 2021

Sensors

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“…When the aircraft is equipped with a 7.4v polymer lithium battery, the mass of the entire aircraft is only 21 g [17]. In 2020, Hoang Vu Phan and Hoon Cheol Park published the latest research results [58]. They utilized the folding mechanism of rhinoceros beetle wings in flight and utilized hyperplastic titanium alloy filaments to simulate wing folds, and devised a new generation of aircraft.…”

Section: A Single Pair Of Wingsmentioning

confidence: 99%

“…After a series of explorations and improvements, the team successfully Fig. 10 KU-Beetle with unfolding wings developed by Konkuk University [58] Fig. 11 Colibri with string-based flapping mechanism [60] devised a new generation of insect-inspired FWMAVs known as "Colibri" in 2017 [59], as shown in Fig.…”

Section: A Single Pair Of Wingsmentioning

confidence: 99%

A Review of Research on the Mechanical Design of Hoverable Flapping Wing Micro-Air Vehicles

Xiao

Huang

et al. 2021

J Bionic Eng

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Most insects and hummingbirds can generate lift during both upstroke and downstroke with a nearly horizontal flapping stroke plane, and perform precise hovering flight. Further, most birds can utilize tails and muscles in wings to actively control the flight performance, while insects control their flight with muscles based on wing root along with wing’s passive deformation. Based on the above flight principles of birds and insects, Flapping Wing Micro Air Vehicles (FWMAVs) are classified as either bird-inspired or insect-inspired FWMAVs. In this review, the research achievements on mechanisms of insect-inspired, hoverable FWMAVs over the last ten years (2011–2020) are provided. We also provide the definition, function, research status and development prospect of hoverable FWMAVs. Then discuss it from three aspects: bio-inspiration, motor-driving mechanisms and intelligent actuator-driving mechanisms. Following this, research groups involved in insect-inspired, hoverable FWMAV research and their major achievements are summarized and classified in tables. Problems, trends and challenges about the mechanism are compiled and presented. Finally, this paper presents conclusions about research on mechanical structure, and the future is discussed to enable further research interests.

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“…(Further, it is also hard to find out the wind tunnel testing counterpart for result comparison.) However, this method may have potential applications to investigate the flow field of hovering FWMAVs in the future [2,3,36]. 7.…”

mentioning

confidence: 99%

Soap Film Visualization of a 10 cm-Span Flapping Wing

Yang

Tasupalli

Waikhom

et al. 2021

Fluids

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Flapping wing micro-air-vehicles (FWMAVs) animate the small-space dexterous flight, hovering, and energy-saving characteristics of birds and insects, and are believed to have enlightenment for the development of bionic flight in the future. When designing FWMAVs, detailed unsteady aerodynamic information is required. Besides the computational fluid mechanics (CFD) technology study, the flow visualization is also needed to assist this research. This article innovatively used soap film visualization with high-speed photography to record two kinds of the 2D flow fields laterally and longitudinally, respectively, generated by a flapping wing of 10 cm span. Different from the qualitative comparison of soap film imaging with the conventional smoke tracing method, the subsequent processing of the soap film images was demonstrated. This work explains how to quantify the soap film imaging into lift and thrust forces, and the corresponding results are compared with the wind tunnel force measurement data preliminarily.

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Mechanisms of collision recovery in flying beetles and flapping-wing robots

Cited by 98 publications

References 45 publications

Soft-Tentacle Gripper for Pipe Crawling to Inspect Industrial Facilities Using UAVs

Soft-Tentacle Gripper for Pipe Crawling to Inspect Industrial Facilities Using UAVs

A Review of Research on the Mechanical Design of Hoverable Flapping Wing Micro-Air Vehicles

Soap Film Visualization of a 10 cm-Span Flapping Wing

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