Add to ORKGABSTRACT: This study introduces an insect-mimicking flapping-wing system, where the rotation, corrugation, and clapping of insect wings have been mimicked. Unlike most motor-driven flapping systems, the flapping in this system is actuated by a unimorph piezoceramic actuator. The artificial wings are first made of a thin polyethylene sheet and then corrugated. As the wings are assembled through a pitching hinge, they can passively rotate about the hinge during the flapping motion due to the resultant aerodynamic force. The effects of the rotation, corrugation, and clapping of the wings are experimentally explored with respect to the vertical force produced by the flapping system. A smoke-wire flow visualization is also conducted to confirm w...
This study focused on reproducing the flapping mechanism observed in insect flight using piezoelect...
Despite significant interest for over a decade in developing micro air vehicles (MAVs) that mimic th...
Abstract: The purpose of this research is to clarify generation mechanism of aerodynamic force of fl...
Flying insects are intelligent biological machines capable of exquisite manoeuvres in various enviro...
This paper explores the design of a flapping mechanism inspired by the insect thorax. A two-degree-o...
Abstract: An experimental investigation of the effects of varying flapping kinematics on the mean li...
The goal of the current research is to develop a hover capable, fully autonomous, flapping wing micr...
The realization of a wing actuation mechanism for a flapping wing micro air vehicle requires a move ...
Unlike birds, insects lack control surfaces at the tail and hence most insects modify their wing kin...
Flight capabilities of natural fliers are unparalleled by any man-made flying machines. Complex flig...
Over the last decades, there has been great interest in understanding the aerodynamics of flapping f...
This study addresses quantifying the performance of an insect-inspired flapping wing prototype under...
In this paper, we illustrate and study the opportunities of resonant ring type structures as wing ac...
In this paper, we illustrate and study the opportunities of resonant ring type structures as wing ac...
Insect-inspired micro air vehicles (MAVs) have the capacity for higher lift forces and greater manoe...
This study focused on reproducing the flapping mechanism observed in insect flight using piezoelect...
Despite significant interest for over a decade in developing micro air vehicles (MAVs) that mimic th...
Abstract: The purpose of this research is to clarify generation mechanism of aerodynamic force of fl...
Flying insects are intelligent biological machines capable of exquisite manoeuvres in various enviro...
This paper explores the design of a flapping mechanism inspired by the insect thorax. A two-degree-o...
Abstract: An experimental investigation of the effects of varying flapping kinematics on the mean li...
The goal of the current research is to develop a hover capable, fully autonomous, flapping wing micr...
The realization of a wing actuation mechanism for a flapping wing micro air vehicle requires a move ...
Unlike birds, insects lack control surfaces at the tail and hence most insects modify their wing kin...
Flight capabilities of natural fliers are unparalleled by any man-made flying machines. Complex flig...
Over the last decades, there has been great interest in understanding the aerodynamics of flapping f...
This study addresses quantifying the performance of an insect-inspired flapping wing prototype under...
In this paper, we illustrate and study the opportunities of resonant ring type structures as wing ac...
In this paper, we illustrate and study the opportunities of resonant ring type structures as wing ac...
Insect-inspired micro air vehicles (MAVs) have the capacity for higher lift forces and greater manoe...
This study focused on reproducing the flapping mechanism observed in insect flight using piezoelect...
Despite significant interest for over a decade in developing micro air vehicles (MAVs) that mimic th...
Abstract: The purpose of this research is to clarify generation mechanism of aerodynamic force of fl...