Department of Bioengineering, Imperial College London, London SW7 2AZ, UK.
Proc Biol Sci. 2021 Feb 10;288(1944):20202676. doi: 10.1098/rspb.2020.2676.
Dragonflies perform dramatic aerial manoeuvres when chasing targets but glide for periods during cruising flights. This makes dragonflies a great system to explore the role of passive stabilizing mechanisms that do not compromise manoeuvrability. We challenged dragonflies by dropping them from selected inverted attitudes and collected 6-degrees-of-freedom aerial recovery kinematics via custom motion capture techniques. From these kinematic data, we performed rigid-body inverse dynamics to reconstruct the forces and torques involved in righting behaviour. We found that inverted dragonflies typically recover themselves with the shortest rotation from the initial body inclination. Additionally, they exhibited a strong tendency to pitch-up with their head leading out of the manoeuvre, despite the lower moment of inertia in the roll axis. Surprisingly, anaesthetized dragonflies could also complete aerial righting reliably. Such passive righting disappeared in recently dead dragonflies but could be partially recovered by waxing their wings to the anaesthetised posture. Our kinematics data, inverse dynamics model and wind-tunnel experiments suggest that the dragonfly's long abdomen and wing posture generate a rotational tendency and passive attitude recovery mechanism during falling. This work demonstrates an aerodynamically stable body configuration in a flying insect and raises new questions in sensorimotor control for small flying systems.
蜻蜓在追逐目标时会做出戏剧性的空中机动动作,但在巡航飞行中会滑翔一段时间。这使得蜻蜓成为一个很好的系统,可以探索不影响机动性的被动稳定机制的作用。我们通过将蜻蜓从选定的倒置姿态中扔下,并用定制的运动捕捉技术收集了 6 自由度的空中恢复运动学。从这些运动学数据中,我们进行了刚体逆动力学分析,以重建与正姿行为相关的力和力矩。我们发现,倒置的蜻蜓通常会以最短的旋转角度从初始身体倾斜恢复过来。此外,尽管在滚动轴上的转动惯量较低,但它们表现出强烈的抬头趋势,头部先于动作伸出。令人惊讶的是,麻醉的蜻蜓也可以可靠地完成空中正姿。这种被动正姿在最近死亡的蜻蜓中消失了,但可以通过将翅膀蜡到麻醉姿势来部分恢复。我们的运动学数据、逆动力学模型和风洞实验表明,蜻蜓的长腹部和翅膀姿势在坠落过程中产生了旋转趋势和被动姿态恢复机制。这项工作展示了一种在飞行昆虫中具有空气动力学稳定性的身体配置,并为小型飞行系统的感觉运动控制提出了新的问题。
