Add to ORKGThis study focused on reproducing the flapping mechanism observed in insect flight using piezoelectric material as its driving mechanism. The result was a wing flapper capable of achieving large wing strokes and weighs 1.26gram. In this paper, the author will attempt to describe the flapping wing design, fabrication method and difficulties encountered during the project. A literature review was performed to understand the design and constraints met in the development of efficient micro air vehicle (MAV). The design of the piezo-driven wing flapper consisted of a piezobuzzer, two Z-shaped bronze strip and two pairs of wings. The Z-shaped bronze strips were mounted on the piezobuzzer and the wings were attached adhesively on the top s...
Flapping wing concept is emerging area in the Micro Air Vehicle (MAV) research. Extensive efforts ar...
ABSTRACT: This study introduces an insect-mimicking flapping-wing system, where the rotation, corrug...
Insects are impressive natural flyers. They fly with high agility and maneuverability by flapping th...
This study focused on reproducing the flapping mechanism observed in insect flight using piezoelect...
Micromechanical Flying Insect (MFI) or simply ‘robofly’ is a newly introduced air vehicle which is t...
Flapping-wing micro air vehicle (MAV) is an emerging micro-robotic technology, which has several cha...
Flight capabilities of natural fliers are unparalleled by any man-made flying machines. Complex flig...
The technology of unmanned aerial vehicles (UAV) has a rapid improvement and their use is increasing...
The project aims to use the multi-functional peizo-electric materials as actuators to vibrate the wi...
A piezoelectric actuated two-bar two-flexure motion amplification mechanism for flapping wing micro...
Piezoelectric bimorph actuators, as opposed to rotary electric motors, have been suggested as an act...
Flying insects are intelligent biological machines capable of exquisite manoeuvres in various enviro...
Piezoelectric fans consisting of a piezoelectric layer and an elastic metal layer were prepared by ...
Piezo-composite membranes have advantages over motorized flapping where frequencies are high and cer...
Microaerial vehicles are an up-and-coming area of robotics which is fuelled by modern understanding ...
Flapping wing concept is emerging area in the Micro Air Vehicle (MAV) research. Extensive efforts ar...
ABSTRACT: This study introduces an insect-mimicking flapping-wing system, where the rotation, corrug...
Insects are impressive natural flyers. They fly with high agility and maneuverability by flapping th...
This study focused on reproducing the flapping mechanism observed in insect flight using piezoelect...
Micromechanical Flying Insect (MFI) or simply ‘robofly’ is a newly introduced air vehicle which is t...
Flapping-wing micro air vehicle (MAV) is an emerging micro-robotic technology, which has several cha...
Flight capabilities of natural fliers are unparalleled by any man-made flying machines. Complex flig...
The technology of unmanned aerial vehicles (UAV) has a rapid improvement and their use is increasing...
The project aims to use the multi-functional peizo-electric materials as actuators to vibrate the wi...
A piezoelectric actuated two-bar two-flexure motion amplification mechanism for flapping wing micro...
Piezoelectric bimorph actuators, as opposed to rotary electric motors, have been suggested as an act...
Flying insects are intelligent biological machines capable of exquisite manoeuvres in various enviro...
Piezoelectric fans consisting of a piezoelectric layer and an elastic metal layer were prepared by ...
Piezo-composite membranes have advantages over motorized flapping where frequencies are high and cer...
Microaerial vehicles are an up-and-coming area of robotics which is fuelled by modern understanding ...
Flapping wing concept is emerging area in the Micro Air Vehicle (MAV) research. Extensive efforts ar...
ABSTRACT: This study introduces an insect-mimicking flapping-wing system, where the rotation, corrug...
Insects are impressive natural flyers. They fly with high agility and maneuverability by flapping th...