Optimization of a tensegrity wing for biomimetic applications

Current attempts to build fast, efficient, and maneuverable underwater vehicles have looked to nature for inspiration. However, they have all been based on traditional propulsive techniques, i.e. rotary motors. In the current study a promising and potentially revolutionary approach is taken that ove...

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Bibliographic Details
Main Authors: Bart-Smith, H., Moored, K.W., Taylor, S.A., Bliss, T.K.
Format: Conference Proceeding
Language:English
Subjects:
actuation
Actuators
Biomimetics
Cables
Kinematics
Minimization methods
morphing wing
optimization
Optimization methods
Sea measurements
Shape measurement
tensegrity
Underwater vehicles
Vehicle dynamics
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Summary:Current attempts to build fast, efficient, and maneuverable underwater vehicles have looked to nature for inspiration. However, they have all been based on traditional propulsive techniques, i.e. rotary motors. In the current study a promising and potentially revolutionary approach is taken that overcomes the limitations of these traditional methods - morphing structure concepts with integrated actuation and sensing. Inspiration for this work comes from the manta ray (Manta birostris) and other batoid fish. These creatures are highly maneuverable but are also able to cruise at high speeds over long distances. In this paper, the structural foundation for the bio-inspired morphing wing is a tensegrity structure. A preliminary procedure is presented for developing morphing tensegrity structures that include actuating elements. A shape optimization method is used that determines actuator placement and actuation amount necessary to achieve the measured biological displacement field of a ray. Lastly, an experimental manta ray wing is presented that measures the static and dynamic pressure field acting on the ray's wings during a normal flapping cycle
ISSN:0191-2216
DOI:10.1109/CDC.2006.377421