Design principles for efficient, repeated jumpgliding
Alexis Lussier Desbiens,Morgan T. Pope,David L. Christensen,Elliot W. Hawkes,Mark R. Cutkosky +4 more
TLDR
Functional requirements and models for a simple jumpglider are presented which formalize the benefits and limitations of using aerodynamic surfaces to augment jumping ability and informs the design of a robotic platform that can perform repeated jumps using a carbon fiber spring and a pivoting wing.Abstract:
Combined jumping and gliding locomotion, or 'jumpgliding', can be an efficient way for small robots or animals to travel over cluttered terrain. This paper presents functional requirements and models for a simple jumpglider which formalize the benefits and limitations of using aerodynamic surfaces to augment jumping ability. Analysis of the model gives insight into design choices and control strategies for higher performance and to accommodate special conditions such as a slippery launching surface. The model informs the design of a robotic platform that can perform repeated jumps using a carbon fiber spring and a pivoting wing. Experiments with two different versions of the platform agree with predictions from the model and demonstrate a significantly greater range, and lower cost-of-transport, than a comparable ballistic jumper.read more
Citations
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Science, technology and the future of small autonomous drones
Dario Floreano,Robert J. Wood +1 more
TL;DR: This work identifies scientific and technological advances that are expected to translate, within appropriate regulatory frameworks, into pervasive use of autonomous drones for civilian applications.
Journal ArticleDOI
Survey on the novel hybrid aquatic–aerial amphibious aircraft: Aquatic unmanned aerial vehicle (AquaUAV)
TL;DR: In this article, the authors classified the current partially-featured AquaUAV into three categories from the scope of the whole UAV field, i.e., the seaplane UAV, the submarine-launched UAV and the submersible UAV.
Journal ArticleDOI
A locust-inspired miniature jumping robot.
TL;DR: The desert locust is the model for the presented bio-inspired design of a jumping mechanism for a small mobile robot, and the basic mechanism is based on the cocking of a torsional spring by wrapping a tendon-like wire around the shaft of a miniature motor.
Journal ArticleDOI
Wind and water tunnel testing of a morphing aquatic micro air vehicle.
TL;DR: A unique Aquatic Micro Air Vehicle (AquaMAV), which uses a reconfigurable wing to dive into the water from flight, inspired by the plunge diving strategy of water diving birds in the family Sulidae is presented.
Journal ArticleDOI
Ladybird beetle–inspired compliant origami
TL;DR: In this paper, the deformation and geometry of the compliant facet enables both energy storage and self-locking in a single origami joint, and a deployable glider module is developed for a multimodal robot.
References
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Proceedings ArticleDOI
A miniature 7g jumping robot
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Proceedings ArticleDOI
Experiments in Fixed-Wing UAV Perching
Rick Cory,Russ Tedrake +1 more
TL;DR: A small fixed-wing autonomous glider which is capable of executing an aggressive high angle-of-attack maneuver in order to land on a perch, and experimental data demonstrating that this simple glider can exploit pressure drag to achieve a high-speed perching maneuver.
Proceedings ArticleDOI
The bow leg hopping robot
Ben Brown,Garth Zeglin +1 more
TL;DR: The bow leg hopper is a novel locomotion design with a highly resilient leg that resembles an archer's bow that is focused on developing control and planning schemes to enable locomotion over discrete "stepping stones" and obstacles.
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