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Diving-flight aerodynamics of a peregrine falcon (Falco peregrinus)
This study investigates the aerodynamics of the falcon Falco peregrinus while diving. During a dive peregrines can reach velocities of more than 320 km h⁻¹. Unfortunately, in freely roaming falcons, these high velocities prohibit a precise determination of flight parameters such as velocity and acce...
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| Published in: | PloS one 2014-02, Vol.9 (2), p.e86506-e86506 |
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| creator | Ponitz, Benjamin Schmitz, Anke Fischer, Dominik Bleckmann, Horst Brücker, Christoph |
| description | This study investigates the aerodynamics of the falcon Falco peregrinus while diving. During a dive peregrines can reach velocities of more than 320 km h⁻¹. Unfortunately, in freely roaming falcons, these high velocities prohibit a precise determination of flight parameters such as velocity and acceleration as well as body shape and wing contour. Therefore, individual F. peregrinus were trained to dive in front of a vertical dam with a height of 60 m. The presence of a well-defined background allowed us to reconstruct the flight path and the body shape of the falcon during certain flight phases. Flight trajectories were obtained with a stereo high-speed camera system. In addition, body images of the falcon were taken from two perspectives with a high-resolution digital camera. The dam allowed us to match the high-resolution images obtained from the digital camera with the corresponding images taken with the high-speed cameras. Using these data we built a life-size model of F. peregrinus and used it to measure the drag and lift forces in a wind-tunnel. We compared these forces acting on the model with the data obtained from the 3-D flight path trajectory of the diving F. peregrinus. Visualizations of the flow in the wind-tunnel uncovered details of the flow structure around the falcon's body, which suggests local regions with separation of flow. High-resolution pictures of the diving peregrine indicate that feathers pop-up in the equivalent regions, where flow separation in the model falcon occurred. |
| doi_str_mv | 10.1371/journal.pone.0086506 |
| format | article |
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During a dive peregrines can reach velocities of more than 320 km h⁻¹. Unfortunately, in freely roaming falcons, these high velocities prohibit a precise determination of flight parameters such as velocity and acceleration as well as body shape and wing contour. Therefore, individual F. peregrinus were trained to dive in front of a vertical dam with a height of 60 m. The presence of a well-defined background allowed us to reconstruct the flight path and the body shape of the falcon during certain flight phases. Flight trajectories were obtained with a stereo high-speed camera system. In addition, body images of the falcon were taken from two perspectives with a high-resolution digital camera. The dam allowed us to match the high-resolution images obtained from the digital camera with the corresponding images taken with the high-speed cameras. Using these data we built a life-size model of F. peregrinus and used it to measure the drag and lift forces in a wind-tunnel. We compared these forces acting on the model with the data obtained from the 3-D flight path trajectory of the diving F. peregrinus. Visualizations of the flow in the wind-tunnel uncovered details of the flow structure around the falcon's body, which suggests local regions with separation of flow. High-resolution pictures of the diving peregrine indicate that feathers pop-up in the equivalent regions, where flow separation in the model falcon occurred.</description><identifier>ISSN: 1932-6203</identifier><identifier>EISSN: 1932-6203</identifier><identifier>DOI: 10.1371/journal.pone.0086506</identifier><identifier>PMID: 24505258</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Aerodynamics ; Animal behavior ; Animals ; Biology ; Birds ; Cameras ; Dams ; Digital cameras ; Digital imaging ; Diving ; Engineering ; Experiments ; Falco peregrinus ; Falconiformes ; Feathers ; Flight ; Flight paths ; Flight, Animal ; Flow ; Flow (Dynamics) ; Flow separation ; Fluid dynamics ; Fluid-structure interaction ; High resolution ; High speed cameras ; Image resolution ; Mechanics ; Models, Theoretical ; Physics ; Pictures ; Reptiles & amphibians ; Science Policy ; Separation ; Trajectories ; Velocity ; Veterinary Science ; Wind tunnels ; Zoology</subject><ispartof>PloS one, 2014-02, Vol.9 (2), p.e86506-e86506</ispartof><rights>COPYRIGHT 2014 Public Library of Science</rights><rights>2014 Ponitz et al. 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During a dive peregrines can reach velocities of more than 320 km h⁻¹. Unfortunately, in freely roaming falcons, these high velocities prohibit a precise determination of flight parameters such as velocity and acceleration as well as body shape and wing contour. Therefore, individual F. peregrinus were trained to dive in front of a vertical dam with a height of 60 m. The presence of a well-defined background allowed us to reconstruct the flight path and the body shape of the falcon during certain flight phases. Flight trajectories were obtained with a stereo high-speed camera system. In addition, body images of the falcon were taken from two perspectives with a high-resolution digital camera. The dam allowed us to match the high-resolution images obtained from the digital camera with the corresponding images taken with the high-speed cameras. Using these data we built a life-size model of F. peregrinus and used it to measure the drag and lift forces in a wind-tunnel. We compared these forces acting on the model with the data obtained from the 3-D flight path trajectory of the diving F. peregrinus. Visualizations of the flow in the wind-tunnel uncovered details of the flow structure around the falcon's body, which suggests local regions with separation of flow. High-resolution pictures of the diving peregrine indicate that feathers pop-up in the equivalent regions, where flow separation in the model falcon occurred.</description><subject>Aerodynamics</subject><subject>Animal behavior</subject><subject>Animals</subject><subject>Biology</subject><subject>Birds</subject><subject>Cameras</subject><subject>Dams</subject><subject>Digital cameras</subject><subject>Digital imaging</subject><subject>Diving</subject><subject>Engineering</subject><subject>Experiments</subject><subject>Falco peregrinus</subject><subject>Falconiformes</subject><subject>Feathers</subject><subject>Flight</subject><subject>Flight paths</subject><subject>Flight, Animal</subject><subject>Flow</subject><subject>Flow (Dynamics)</subject><subject>Flow separation</subject><subject>Fluid dynamics</subject><subject>Fluid-structure interaction</subject><subject>High resolution</subject><subject>High speed cameras</subject><subject>Image 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peregrinus)</atitle><jtitle>PloS one</jtitle><addtitle>PLoS One</addtitle><date>2014-02-05</date><risdate>2014</risdate><volume>9</volume><issue>2</issue><spage>e86506</spage><epage>e86506</epage><pages>e86506-e86506</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>This study investigates the aerodynamics of the falcon Falco peregrinus while diving. During a dive peregrines can reach velocities of more than 320 km h⁻¹. Unfortunately, in freely roaming falcons, these high velocities prohibit a precise determination of flight parameters such as velocity and acceleration as well as body shape and wing contour. Therefore, individual F. peregrinus were trained to dive in front of a vertical dam with a height of 60 m. The presence of a well-defined background allowed us to reconstruct the flight path and the body shape of the falcon during certain flight phases. Flight trajectories were obtained with a stereo high-speed camera system. In addition, body images of the falcon were taken from two perspectives with a high-resolution digital camera. The dam allowed us to match the high-resolution images obtained from the digital camera with the corresponding images taken with the high-speed cameras. Using these data we built a life-size model of F. peregrinus and used it to measure the drag and lift forces in a wind-tunnel. We compared these forces acting on the model with the data obtained from the 3-D flight path trajectory of the diving F. peregrinus. Visualizations of the flow in the wind-tunnel uncovered details of the flow structure around the falcon's body, which suggests local regions with separation of flow. High-resolution pictures of the diving peregrine indicate that feathers pop-up in the equivalent regions, where flow separation in the model falcon occurred.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>24505258</pmid><doi>10.1371/journal.pone.0086506</doi><tpages>e86506</tpages><oa>free_for_read</oa></addata></record> |
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| issn | 1932-6203 1932-6203 |
| language | eng |
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| source | PubMed (Medline); Publicly Available Content (ProQuest) |
| subjects | Aerodynamics Animal behavior Animals Biology Birds Cameras Dams Digital cameras Digital imaging Diving Engineering Experiments Falco peregrinus Falconiformes Feathers Flight Flight paths Flight, Animal Flow Flow (Dynamics) Flow separation Fluid dynamics Fluid-structure interaction High resolution High speed cameras Image resolution Mechanics Models, Theoretical Physics Pictures Reptiles & amphibians Science Policy Separation Trajectories Velocity Veterinary Science Wind tunnels Zoology |
| title | Diving-flight aerodynamics of a peregrine falcon (Falco peregrinus) |
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