Add to ORKGInsects are able to fly by flapping their wings through a series of upstroke and downstroke movement. The air vortex that is generated underneath the wings, produces an upward force which is known as lift. Objective: To develop a robotic butterfly that claps and flings for enhanced lift generation. [1st Award
Flight capabilities of natural fliers are unparalleled by any man-made flying machines. Complex flig...
The hovering capabilities of Unmanned Aerial Vehicles (UAVs) has allowed them to be used in numerous...
Butterflies fly combining wing flapping and gliding efficiently and have beautiful flight patterns. ...
Insects are able to fly by flapping their wings through a series of upstroke and downstroke movement...
This paper explores the design of a flapping mechanism inspired by the insect thorax. A two-degree-o...
Insects are the most successful animal on the planet, undergoing evolutionary adaptions in size and ...
Butterflies look like no other flying animal, with unusually short, broad and large wings relative t...
Insects are impressive natural flyers. They fly with high agility and maneuverability by flapping th...
Flying insects are intelligent biological machines capable of exquisite manoeuvres in various enviro...
Flying insects exhibit a remarkable ability to fly in environments that are small, cluttered and hig...
Current bioinspired flapping-wing micro aerial robots incorporate numerous capabilities pulled from ...
There has been an increase in the research and development of Micro Air Vehicles (MAVs). And with MA...
The goal of the current research is to develop a hover capable, fully autonomous, flapping wing micr...
Flying insects generate forces that are too large to be accounted for by conventional steady-state a...
Flapping wings provide unmatched manoeuvrability for flying microrobots. Recent advances in modellin...
Flight capabilities of natural fliers are unparalleled by any man-made flying machines. Complex flig...
The hovering capabilities of Unmanned Aerial Vehicles (UAVs) has allowed them to be used in numerous...
Butterflies fly combining wing flapping and gliding efficiently and have beautiful flight patterns. ...
Insects are able to fly by flapping their wings through a series of upstroke and downstroke movement...
This paper explores the design of a flapping mechanism inspired by the insect thorax. A two-degree-o...
Insects are the most successful animal on the planet, undergoing evolutionary adaptions in size and ...
Butterflies look like no other flying animal, with unusually short, broad and large wings relative t...
Insects are impressive natural flyers. They fly with high agility and maneuverability by flapping th...
Flying insects are intelligent biological machines capable of exquisite manoeuvres in various enviro...
Flying insects exhibit a remarkable ability to fly in environments that are small, cluttered and hig...
Current bioinspired flapping-wing micro aerial robots incorporate numerous capabilities pulled from ...
There has been an increase in the research and development of Micro Air Vehicles (MAVs). And with MA...
The goal of the current research is to develop a hover capable, fully autonomous, flapping wing micr...
Flying insects generate forces that are too large to be accounted for by conventional steady-state a...
Flapping wings provide unmatched manoeuvrability for flying microrobots. Recent advances in modellin...
Flight capabilities of natural fliers are unparalleled by any man-made flying machines. Complex flig...
The hovering capabilities of Unmanned Aerial Vehicles (UAVs) has allowed them to be used in numerous...
Butterflies fly combining wing flapping and gliding efficiently and have beautiful flight patterns. ...