Add to ORKGIn this paper, we illustrate and study the opportunities of resonant ring type structures as wing actuation mechanisms for a flapping wing Micro Air Vehicle (MAV). Various design alternatives are presented and studied based on computational and physical models. Insects provide an excellent source of inspiration for the development of the wing actuation mechanisms for flapping wing MAVs. The insect thorax is a structure which in essence provides a mechanism to couple the wing muscles to the wings while offering weight reduction through application of resonance, using tailored elasticity. The resonant properties of the thorax are a very effective way to reducing the power expenditure of wing movement. The wing movement itself is fairly comple...
Insects are impressive natural flyers. They fly with high agility and maneuverability by flapping th...
<p>Miniature flapping flight systems hold great promise in matching the agility of their natural cou...
The goal of the current research is to develop a hover capable, fully autonomous, flapping wing micr...
In this paper, we illustrate and study the opportunities of resonant ring type structures as wing ac...
The realization of a wing actuation mechanism for a flapping wing micro air vehicle requires a move ...
The use of resonant structures in FMAVs is an idea inspired by nature. The application of resonance ...
Flight capabilities of natural fliers are unparalleled by any man-made flying machines. Complex flig...
It is possible that MAV designs of the future will exploit flapping flight in order to perform missi...
It is possible that MAV designs of the future will exploit flapping flight in order to perform missi...
Tiny flying platforms with a wingspan of up to 20 centimetres are build to mimic flying insects: Fla...
Insects hold tremendous and complex flight capability to perform remarkable flight with high agility...
Insect-inspired micro air vehicles (MAVs) have the capacity for higher lift forces and greater manoe...
This paper explores the design of a flapping mechanism inspired by the insect thorax. A two-degree-o...
Flying insects are intelligent biological machines capable of exquisite manoeuvres in various enviro...
Flying insects may achieve energy efficient flight by storing and releasing elastic energy in their ...
Insects are impressive natural flyers. They fly with high agility and maneuverability by flapping th...
<p>Miniature flapping flight systems hold great promise in matching the agility of their natural cou...
The goal of the current research is to develop a hover capable, fully autonomous, flapping wing micr...
In this paper, we illustrate and study the opportunities of resonant ring type structures as wing ac...
The realization of a wing actuation mechanism for a flapping wing micro air vehicle requires a move ...
The use of resonant structures in FMAVs is an idea inspired by nature. The application of resonance ...
Flight capabilities of natural fliers are unparalleled by any man-made flying machines. Complex flig...
It is possible that MAV designs of the future will exploit flapping flight in order to perform missi...
It is possible that MAV designs of the future will exploit flapping flight in order to perform missi...
Tiny flying platforms with a wingspan of up to 20 centimetres are build to mimic flying insects: Fla...
Insects hold tremendous and complex flight capability to perform remarkable flight with high agility...
Insect-inspired micro air vehicles (MAVs) have the capacity for higher lift forces and greater manoe...
This paper explores the design of a flapping mechanism inspired by the insect thorax. A two-degree-o...
Flying insects are intelligent biological machines capable of exquisite manoeuvres in various enviro...
Flying insects may achieve energy efficient flight by storing and releasing elastic energy in their ...
Insects are impressive natural flyers. They fly with high agility and maneuverability by flapping th...
<p>Miniature flapping flight systems hold great promise in matching the agility of their natural cou...
The goal of the current research is to develop a hover capable, fully autonomous, flapping wing micr...