Design principles for efficient, repeated jumpgliding

Design principles for efficient, repeated jumpgliding

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...

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Veröffentlicht in:Bioinspiration & biomimetics 2014-06, Vol.9 (2), p.025009-025009
Hauptverfasser: Desbiens, Alexis Lussier, Pope, Morgan T, Christensen, David L, Hawkes, Elliot W, Cutkosky, Mark R
Format: Artikel
Sprache:eng
Schlagworte:
Aircraft - instrumentation
Animals
Biomimetics
Biomimetics - instrumentation
Biomimetics - methods
Carbon fibers
Computer Simulation
Computer-Aided Design
Design analysis
dynamics
Energy Transfer - physiology
Equipment Design
Equipment Failure Analysis
exploration
Feedback, Physiological - physiology
Flight, Animal - physiology
Gliding
jumpgliding
Jumping
MAVs
Models, Biological
Platforms
robotics
Robotics - instrumentation
Robots
Strategy
Wings, Animal - physiology
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Zusammenfassung: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.
ISSN:1748-3182
1748-3190
DOI:10.1088/1748-3182/9/2/025009