Add to ORKGBirds dynamically adapt to disparate flight behaviours and unpredictable environments by actively manipulating their skeletal joints to change their wing shape. This in-flight adaptability has inspired many unmanned aerial vehicle (UAV) wings, which predominately morph within a single geometric plane. By contrast, avian joint-driven wing morphing produces a diverse set of non-planar wing shapes. Here, we investigated if joint-driven wing morphing is desirable for UAVs by quantifying the longitudinal aerodynamic characteristics of gull-inspired wing-body configurations. We used a numerical lifting-line algorithm (MachUpX) to determine the aerodynamic loads across the range of motion of the elbow and wrist, which was validated with wind tunne...
Birds and bats frequently reconfigure their wing planform through a combination of flapping and loca...
Recent advances in smart materials have allowed for the design of low-profile actuators suitable for...
Flapping flight is the most power-demanding mode of locomotion, associated with a suite of anatomica...
Uncrewed aerial vehicle (UAV) design has advanced substantially over the past century; however, ther...
Birds perform astounding aerial maneuvers by actuating their shoulder, elbow, and wrist joints to mo...
Birds flying in turbulent conditions demonstrate impressive flight stability and control. This versa...
A gliding bird's ability to stabilize its flight path is as critical as its ability to produce suffi...
A gliding bird's ability to stabilize its flight path is as critical as its ability to produce suffi...
The impressive maneuverability demonstrated by birds has so far eluded comparably sized uncrewed aer...
Birds are incredibly successful animals that can be found on every continent on this planet across a...
Birds morph their wing shape to accomplish extraordinary manoeuvres1-4, which are governed by avian-...
Birds change the shape and area of their wings to an exceptional degree, surpassing insects, bats an...
<div><p>Past studies have shown that birds use their wings not only for flight, but also when ascend...
AbstractIn this paper, we investigate the role of morphing on flight dynamics of two birds by simula...
Past studies have shown that birds use their wings not only for flight, but also when ascending stee...
Birds and bats frequently reconfigure their wing planform through a combination of flapping and loca...
Recent advances in smart materials have allowed for the design of low-profile actuators suitable for...
Flapping flight is the most power-demanding mode of locomotion, associated with a suite of anatomica...
Uncrewed aerial vehicle (UAV) design has advanced substantially over the past century; however, ther...
Birds perform astounding aerial maneuvers by actuating their shoulder, elbow, and wrist joints to mo...
Birds flying in turbulent conditions demonstrate impressive flight stability and control. This versa...
A gliding bird's ability to stabilize its flight path is as critical as its ability to produce suffi...
A gliding bird's ability to stabilize its flight path is as critical as its ability to produce suffi...
The impressive maneuverability demonstrated by birds has so far eluded comparably sized uncrewed aer...
Birds are incredibly successful animals that can be found on every continent on this planet across a...
Birds morph their wing shape to accomplish extraordinary manoeuvres1-4, which are governed by avian-...
Birds change the shape and area of their wings to an exceptional degree, surpassing insects, bats an...
<div><p>Past studies have shown that birds use their wings not only for flight, but also when ascend...
AbstractIn this paper, we investigate the role of morphing on flight dynamics of two birds by simula...
Past studies have shown that birds use their wings not only for flight, but also when ascending stee...
Birds and bats frequently reconfigure their wing planform through a combination of flapping and loca...
Recent advances in smart materials have allowed for the design of low-profile actuators suitable for...
Flapping flight is the most power-demanding mode of locomotion, associated with a suite of anatomica...
