Add to ORKGFlapping wings provide unmatched manoeuvrability for flying microrobots. Recent advances in modelling insect aerodynamics show that adequate wing rotation at the end of the stroke is essential for generating adequate flight forces. We developed a thorax structure using four bar frames combined with an extensible fan-fold wing to provide adequate wing stroke and rotation. Flow measurements on a scale model of the beating wing show promising aerodynamics. Calculations using a simple resonant mechanical circuit model show that piezoelectric actuators can generate sufficient power, force and stroke to drive the wings at 150 Hz
<p>Miniature flapping flight systems hold great promise in matching the agility of their natural cou...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2007.Includes...
This paper presents an original concept using a two resonant vibration modes combined motion to repr...
Flapping wings provide unmatched manoeuvrability for flying microrobots. Recent advances in modellin...
Micromechanical Flying Insect (MFI) or simply ‘robofly’ is a newly introduced air vehicle which is t...
Insects are the most successful animal on the planet, undergoing evolutionary adaptions in size and ...
Current bioinspired flapping-wing micro aerial robots incorporate numerous capabilities pulled from ...
Designing a flapping wing insect robot requires understanding of insect flight mechanisms, wing kine...
This paper explores the design of a flapping mechanism inspired by the insect thorax. A two-degree-o...
Insects are impressive natural flyers. They fly with high agility and maneuverability by flapping th...
This paper presents theoretical and experimental analyses of insect flapping mechanics and aerodynam...
Flight capabilities of natural fliers are unparalleled by any man-made flying machines. Complex flig...
Flying insects impress by their versatility and have been a recurrent source of inspiration for engi...
Hovering flies generate exceptionally high lift, because their wings generate a stable leading edge ...
Flying insects are intelligent biological machines capable of exquisite manoeuvres in various enviro...
<p>Miniature flapping flight systems hold great promise in matching the agility of their natural cou...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2007.Includes...
This paper presents an original concept using a two resonant vibration modes combined motion to repr...
Flapping wings provide unmatched manoeuvrability for flying microrobots. Recent advances in modellin...
Micromechanical Flying Insect (MFI) or simply ‘robofly’ is a newly introduced air vehicle which is t...
Insects are the most successful animal on the planet, undergoing evolutionary adaptions in size and ...
Current bioinspired flapping-wing micro aerial robots incorporate numerous capabilities pulled from ...
Designing a flapping wing insect robot requires understanding of insect flight mechanisms, wing kine...
This paper explores the design of a flapping mechanism inspired by the insect thorax. A two-degree-o...
Insects are impressive natural flyers. They fly with high agility and maneuverability by flapping th...
This paper presents theoretical and experimental analyses of insect flapping mechanics and aerodynam...
Flight capabilities of natural fliers are unparalleled by any man-made flying machines. Complex flig...
Flying insects impress by their versatility and have been a recurrent source of inspiration for engi...
Hovering flies generate exceptionally high lift, because their wings generate a stable leading edge ...
Flying insects are intelligent biological machines capable of exquisite manoeuvres in various enviro...
<p>Miniature flapping flight systems hold great promise in matching the agility of their natural cou...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2007.Includes...
This paper presents an original concept using a two resonant vibration modes combined motion to repr...