Add to ORKGWe present the visual analysis of a biologically inspired CFD simulation of the deformable flapping wings of a dragonfly as it takes off and begins to maneuver, using vortex detection and integration-based flow lines. The additional seed placement and perceptual challenges introduced by having multiple dynamically deforming objects in the highly unsteady 3D flow domain are addressed. A brief overview of the high speed photogrammetry setup used to capture the dragonfly takeoff, parametric surfaces used for wing reconstruction, CFD solver and underlying flapping flight theory is presented to clarify the importance of several unsteady flight mechanisms, such as the leading edge vortex, that are captured visually. A novel interactive seed place...
Some insects use leading-edge vortices to generate high lift forces, as has been inferred from quali...
The development of micro aerial vehicles is motivated by the need for autonomous unmanned aerial veh...
For a significant portion of the wingbeat cycle in insect-like flapping, the wing sweeps at more or ...
We present the visual analysis of a biologically inspired CFD simulation of the deformable flapping ...
Here we show, by qualitative free- and tethered-flight flow visualization, that dragonflies fly by u...
The material property, kinematics and computational fluid dynamics of the dragonfly Sympetrum flaveo...
This paper investigates the unsteady aerodynamic features of wing-body-vortex interactions and the e...
This work is a synthesis of our current understanding of the mechanics, aerodynamics and visuallymed...
The computational fluid dynamic model of a live-sized dragonfly (Sympetrum flaveolum) hindwing is si...
This paper investigates the unsteady aerodynamic features of wing-wing, wing-body and vortex-vorte...
The kinematics of the flapping hindwing of the dragonfly Sympetrum flaveolum is investigated. Sever...
To implement the insects" flapping flight for developing flapping MAVs(micro air vehicles), the unst...
Here we present the first digital particle image velocimetry (DPIV) analysis of the flow field aroun...
Detailed numerical simulations are conducted to investigate aerodynamic characteristics of unsteady-...
Detailed numerical simulations are conducted to investigate aerodynamic characteristics of unsteady-...
Some insects use leading-edge vortices to generate high lift forces, as has been inferred from quali...
The development of micro aerial vehicles is motivated by the need for autonomous unmanned aerial veh...
For a significant portion of the wingbeat cycle in insect-like flapping, the wing sweeps at more or ...
We present the visual analysis of a biologically inspired CFD simulation of the deformable flapping ...
Here we show, by qualitative free- and tethered-flight flow visualization, that dragonflies fly by u...
The material property, kinematics and computational fluid dynamics of the dragonfly Sympetrum flaveo...
This paper investigates the unsteady aerodynamic features of wing-body-vortex interactions and the e...
This work is a synthesis of our current understanding of the mechanics, aerodynamics and visuallymed...
The computational fluid dynamic model of a live-sized dragonfly (Sympetrum flaveolum) hindwing is si...
This paper investigates the unsteady aerodynamic features of wing-wing, wing-body and vortex-vorte...
The kinematics of the flapping hindwing of the dragonfly Sympetrum flaveolum is investigated. Sever...
To implement the insects" flapping flight for developing flapping MAVs(micro air vehicles), the unst...
Here we present the first digital particle image velocimetry (DPIV) analysis of the flow field aroun...
Detailed numerical simulations are conducted to investigate aerodynamic characteristics of unsteady-...
Detailed numerical simulations are conducted to investigate aerodynamic characteristics of unsteady-...
Some insects use leading-edge vortices to generate high lift forces, as has been inferred from quali...
The development of micro aerial vehicles is motivated by the need for autonomous unmanned aerial veh...
For a significant portion of the wingbeat cycle in insect-like flapping, the wing sweeps at more or ...