Tyson Hedrick

Publications

• Three-dimensional trajectories and network analyses of group behaviour within chimney swift flocks during approaches to the roost
• Hovering with a high speed wing: How cliff swallows push the envelope of wing shape
• Hawkmoth flight stability in turbulent vortex streets
• Free-flight kinematics of massed chimney swifts entering a chimney roost at dusk
• The Flight Dynamics of Hummingbirds during Territory Encroachment and Defense
• For all other use of material from the Journal permission should be sought from Cambridge or the American Branch of Cambridge University Press. Information on Journal of Fluid Mechanics is available on journals. cambridge. org/FLM. For further
• ThruTracker: Open-Source Software for 2-D and 3-D Animal Video Tracking
• High speed pursuit in barn and cliff swallows
• How the hawkmoth Manduca sexta moves left and right
• Flow characteristics of a hovering hummingbird
• Clear Delineation of Added-Mass and Vortex-Induced Forces Generated by Flapping Wing
• Force production of a hovering hummingbird
• Collision avoidance in biological systems using collision cones
• A protocol and calibration method for accurate multi-camera field videography
• Extending the U: Power estimates of Cliff Swallow low-speed flight and hovering in the field
• Mechanics of Escape Maneuvers in Hummingbirds
• The mechanics and behavior of cliff swallows during tandem flights
• Hawkmoth flight performance in tornado-like whirlwind vortices
• Comparison of CFD and quasi-steady analysis of hovering aerodynamics for a Ruby-throated hummingbird
• Three-dimensional flow and lift characteristics of a hovering ruby-throated hummingbird
• Biobotic insect swarm based sensor networks for search and rescue
• Clap and fling mechanism with interacting porous wings in tiny insect flight
• Do hummingbirds use a different mechanism than insects to flip and twist their wings?
• Recent developments in the study of insect flight 1
• Performance of a quasi-steady model for hovering hummingbirds
• Wing-pitching mechanism of hovering Ruby-throated hummingbirds
• Western and Clark's grebes use novel strategies for running on water
• Force Production and Flight Control of Hummingbird Escape Maneuvers
• Field flight dynamics of hummingbirds during territory encroachment and defense
• Centripetal Acceleration Reaction: An Effective and Robust Mechanism for Flapping Flight in Insects
• Analysis of cruise flight of the calliope hummingbird
• Lift vs. drag based mechanisms for vertical force production in the smallest flying insects
• Computational modeling of aerodynamics in the fast forward flight of hummingbirds
• Direct lateral maneuvers in hawkmoths
• A multi-fidelity modelling approach for evaluation and optimization of wing stroke aerodynamics in flapping flight
• Clap and Fling in Tiny Insect Flight: Role of the Porous Flow Introduced by Bristled Wings
• A comparative study of the hovering efficiency of flapping and revolving wings
• Vibrational control: A hidden stabilization mechanism in insect flight
• Gliding for a free lunch: biomechanics of foraging flight in common swifts (Apus apus)
• Functional Morphology of Gliding Flight II. Morphology Follows Predictions of Gliding Performance
• Functional Morphology of Gliding Flight I: Modeling Reveals Distinct Performance Landscapes Based on Soaring Strategies
• Compound-V formations in shorebird flocks
• Competition and cooperation among chimney swifts at roost entry
• Compound-V formations in shorebird flocks
• Dragonflies use underdamped pursuit to chase conspecifics
• Three-dimensional actuation of hummingbird wings requires diverse effects from the primary flight muscles
• Asymmetry costs: Effects of wing damage on hovering flight performance in the hawkmoth Manduca sexta
• Mechanism and scaling of wing tone generation in mosquitoes
• How biomechanics, path planning and sensing enable gliding flight in a natural environment
• Mosquitoes buzz and fruit flies don’t-a comparative aeroacoustic analysis of wing-tone generation
• A search for optimal wing strokes in flapping flight: can engineers improve upon nature?
• Flight of the smallest insects
• Low speed maneuvering flight of the rose-breasted cockatoo (Eolophus roseicapillus). I. Kinematic and neuromuscular control of turning
• Load lifting with asymmetric wings in the hawkmoth (Manduca sexta)
• Scaling of passive damping and maneuverability in flying animals
• A Miniaturized Animal-Computer Interface for Use with Untethered Subjects
• Dynamic Drag of Broad Leaves and Physical Models in Strong Wind
• Sideslipping Maneuvers in Free-Flying Hawkmoths
• Separating behavioral and passive dynamics in the pitch maneuvers of hawkmoths
• Neuromuscular Control of Yaw Turns in the Hawkmoth Manduca sexta
• Accommodation of antennal perturbation in freely flying hawkmoths
• Voluntary and perturbed free flight yaw maneuvers in hawkmoths
• Accurate 3D-reconstruction of skeletal morphology and movement with CTX-imaging
• Flight formation and group behavior in the highly gregarious Brazilian free-tailed bat Tadarida brasiliensis
• Neuromechanics: an integrative approach for understanding motor control
• Quantifying the complexity of bat wing kinematics
• X-ray reconstruction of moving morphology (XROMM): precision, accuracy and applications in comparative biomechanics research
• Tracking a large number of objects from multiple views
• Low speed maneuvering flight of the rose-breasted cockatoo (Eolophus roseicapillus). II. Inertial and aerodynamic reorientation
• A method for accurate 3-D reconstruction of skeletal morphology and movement
• A combined experimental-numerical study of the role of wing flexibility in insect flight
• Experimental study of low speed turning flight in cockatoos and cockatiels
• Large eddy simulation of flows with complex moving boundaries: application to flying and swimming in animals
• Within-wingbeat damping: dynamics of continuous free-flight yaw turns in Manduca sexta
• Effects of flight speed upon muscle activity and metabolic rate in hummingbirds
• Effects of flight speed upon muscle activity in hummingbirds
• Biomechanical acclimation: Flying cold
• Understanding the Role of Moment-of-Inertia Variation in Insect Flight Maneuvers
• Clap and fling in tiny insects with porous wings
• Active Deformation in Insect Wings and Its Effect on Aerodynamic Performance of Flapping Flight
• High-Fidelity Computational Models of Insects in Flight: Wing Deformation and Flight Maneuvers
• Impulse perturbation and recovery in a free flying insect
• The mechanics and control of pitching manoeuvres in a freely flying hawkmoth (Manduca sexta)
• Damping in flapping flight and its implications for manoeuvring, scaling and evolution
• Morphological and kinematic basis of the hummingbird flight stroke: scaling of flight muscle transmission ratio
• Neuromuscular control of free-flight yaw turns in the hawkmoth Manduca sexta
• Hummingbird flight
• Neuromuscular and biomechanical compensation for wing asymmetry in insect hovering flight
• Flight Stabilization with Flapping Wings in Gusty Environments
• Three-dimensional flow around a hovering hummingbird
• Using computational and mechanical models to study animal locomotion
• The significance of moment-of-inertia variation in flight manoeuvres of butterflies
• Time-varying wing-twist improves aerodynamic efficiency of forward flight in butterflies
• 3D Skeletal Kinematics During Hovering in Hummingbirds
• 3d image correlation based reconstruction of fluid locomotor surfaces
• Pitch perturbation recovery in free-flying hawkmoths
• Flying and parachuting in the smallest insects
• Running on water: The impressive rushing behaviour of Western and Clark's Grebes
• Software techniques for two-and three-dimensional kinematic measurements of biological and biomimetic systems
• Wingbeat time and the scaling of passive rotational damping in flapping flight
• Linear accelerations in the flapping flight of cockatiels
• Wing kinematics of avian flight across speeds
• Flight control in the hawkmoth Manduca sexta: the inverse problem of hovering
• The aerodynamics of avian take-off from direct pressure measurements in Canada geese (Branta canadensis)
• Power output of cockatiels: A musculo-skeletal and aerodynamic approach.
• Discovering Useful Parts for Pose Estimation in Sparsely Annotated Datasets
• Low-speed turning kinematics of the rose-breasted cockatoo
• Aerodynamics of flapping bird wings: Insights from direct pressure measurements.
• 3D kinematics and neuromuscular activity during hummingbird flight over a range of speeds.
• Asymmetric flapping: Turning flight in cockatoos and cockatiels
• Low-speed maneuvering flight in the rose-breasted cockatoo
• Accepted 29 January 2003
• Regional patterns of pectoralis fascicle strain in the pigeon Columba livia during level flight
• Three-dimensional kinematics of level flight in the Egyptian fruit bat, Rousettus aegyptiacus.
• Creating a flap: Different ways to wing it
• 3D kinematic analysis of lift production over a range of speeds in ring-necked doves and cockatiels.
• Inverse analysis of flight control hawkmoths
• Comparative power curves in bird flight
• Estimates of circulation and gait change based on a three-dimensional kinematic analysis of flight in cockatiels (Nymphicus hollandicus) and ringed turtle-doves (Streptopelia risoria)
• Wing inertia and whole-body acceleration: an analysis of instantaneous aerodynamic force production in cockatiels (Nymphicus hollandicus) flying across a range of speeds
• Three-dimensional kinematics of hummingbird flight
• How cockatiels (Nymphicus hollandicus) modulate pectoralis power output across flight speeds
• Dynamic pressure maps for wings and tails of pigeons in slow, flapping flight, and their energetic implications
• Aerodynamic explanation of flight speed limits in hawkmoth-like flapping-wing insects
• Musculoskeletal wing-actuation model of hummingbirds predicts diverse effects of primary flight muscles in hovering flight
• Drink safely: common swifts (Apus apus) dissipate mechanical energy to decrease flight speed before touch-and-go drinking
• Morphological evolution of bird wings follows a mechanical sensitivity gradient determined by the aerodynamics of flapping flight
• Aerodynamic response of a red-tailed hawk to discrete transverse gusts