AI Article Synopsis
- Birds exhibit unique flight abilities thanks to their specialized wing structure, but studying them in real-time is difficult and resource-intensive.* -
- Researchers captured detailed wing movement data from free-flying pigeons, focusing on five key motion parameters: flapping, sweeping, twisting, folding, and bending, while also analyzing their forelimb skeleton.* -
- The study identified strong correlations between wing kinematics and joint movement, leading to the design of three innovative flapping wing robots aimed at replicating pigeon wing motion in 3D.*
Article Abstract
Birds have remarkable flight capabilities due to their adaptive wing morphology. However, studying live birds is time-consuming and laborious, and obtaining information about the complete wingbeat cycle is difficult. To address this issue and provide a complete dataset, we recorded comprehensive motion capture wing trajectory data from five free-flying pigeons (Columba livia). Five key motion parameters are used to quantitatively characterize wing kinematics: flapping, sweeping, twisting, folding and bending. In addition, the forelimb skeleton is mapped using an open-chain three-bar mechanism model. By systematically evaluating the relationship of joint degrees of freedom (DOFs), we configured the model as a 3-DOF shoulder, 1-DOF elbow and 2-DOF wrist. Based on the correlation analysis between wingbeat kinematics and joint movement, we found that the strongly correlated shoulder and wrist roll within the stroke plane cause wing flap and bending. There is also a strong correlation between shoulder, elbow and wrist yaw out of the stroke plane, which causes wing sweep and fold. By simplifying the wing morphing, we developed three flapping wing robots, each with different DOFs inside and outside the stroke plane. This study provides insight into the design of flapping wing robots capable of mimicking the 3D wing motion of pigeons.
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| http://dx.doi.org/10.3390/biomimetics9090555 | DOI Listing |
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