Journal ArticleDOI
Sensors and control systems for micro‐air vehicles: lessons from flies
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TLDR
A review of recent literature on flight in flies is given first, whereafter two biomimetic case studies are discussed; the optic flow sensor developed by a French team and the micro-mechanical flying insect project at the University of Berkeley.Abstract:
Purpose – The purpose of this paper is to provide an overview of the recent research on the interaction between flight mechanics and sensory/control systems in flies. It furthermore, explores the application to biomimetic micro‐air vehicles (MAVs).Design/methodology/approach – A review of recent literature on flight in flies is given first, whereafter two biomimetic case studies are discussed; the optic flow sensor developed by a French team and the micro‐mechanical flying insect project at the University of Berkeley.Findings – The paper discusses the many areas where biological knowledge on flight in flies can be used by designers of MAVs.Practical implications – Fully autonomous MAVs, inspired by insect flight, could be useful in a wide range of areas including search‐and‐rescue, surveillance and for military purposes.Originality/value – The paper gives an up to date overview of dipteran flight behaviour and points to ways in which this knowledge can be applied to MAVs. The paper should thus be useful f...read more
Citations
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Journal ArticleDOI
Understanding and mimicking the dual optimality of the fly ear.
TL;DR: This work provides a quantitative and mechanistic explanation for the fly's sound-localization ability from a new perspective, and provides a framework for the development of fly-ear inspired sensors to overcoming a previously-insurmountable size constraint in engineered sound- localization systems.
Journal ArticleDOI
Remote sensing and navigation in the animal world: an overview
TL;DR: In this paper, a comparison of remote sensors evolved by animals and sensors designed by humans is presented. But the authors focus on the use of the biometric approach in the design of new sensors.
References
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Book
Biology of Spiders
TL;DR: An updated translation of the definitive text on spider biology by the author of the second German-language edition from Thieme Verlag, with greater emphasis on ecology and systematics.
Book
Drosophila: A Laboratory Handbook
TL;DR: This manual covers three approaches to the field: analysis of neural development, recording and imaging activities in the nervous system, and analysis of behavior.
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Leading-edge vortices in insect flight
Charles P. Ellington,Coen van den Berg,Coen van den Berg,Alexander P. Willmott,Adrian L. R. Thomas,Adrian L. R. Thomas +5 more
TL;DR: In this article, the authors visualized the airflow around the wings of the hawkmoth Manduca sexta and a 'hovering' large mechanical model, and found an intense leading-edge vortex was found on the downstroke, of sufficient strength to explain the high-lift forces.
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Quick Estimates of Flight Fitness in Hovering Animals, Including Novel Mechanisms for Lift Production
TL;DR: In this article, the average lift coefficient, Reynolds number, the aerodynamic power, the moment of inertia of the wing mass and the dynamic efficiency in animals which perform normal hovering with horizontally beating wings are derived.
Journal ArticleDOI
The First Takeoff of a Biologically Inspired At-Scale Robotic Insect
TL;DR: It is shown how novel manufacturing paradigms enable the creation of the mechanical and aeromechanical subsystems of a microrobotic device that is capable of Diptera-like wing trajectories, and the results are a uniquemicrorobot: a 60 mg robotic insect that can produce sufficient thrust to accelerate vertically.