基于低空视觉的直升机旋翼轴心轨迹测量法

Helicopter rotor axial center trajectory measurement method based on low-altitude vision

  • 摘要: 为满足直升机飞行状态旋翼轴心轨迹测量需求,提出了一种基于低空双目视觉的轴心轨迹测量方法。首先,针对高速旋转体的小量测量,基于立体视觉测量原理设计构建了以无人机为低空移动平台的旋翼轴心轨迹视觉测量系统。其次,针对动-动测量环境条件,提出了地面标定与空中动态实时标定联合的测量系统标定方法。然后,基于空间几何关系,论述了旋翼轴心静态估计与动态轨迹测量方法;最后,进行了测量系统地面精度验证试验与直升机地面开车状态的旋翼轴心轨迹测量试验。试验结果表明,该方法准确可靠,点间距离精度优于1‰,可实现轴心轨迹的非接触精确测量,还可推广应用于其他动态小量测量任务。

     

    Abstract: To meet the requirements of rotor axial center trajectory measurement in helicopter flight state, an axial center trajectory measurement method based on low-altitude binocular vision was proposed. Firstly, for the small-value measurement of high-speed rotating objects, based on the principle of stereo vision measurement, a visual measurement system of rotor axial center trajectory with unmanned aerial vehicle (UAV) as a low-altitude mobile platform was designed and constructed. Secondly, according to the environmental conditions of dynamic measurement, a measurement system calibration method combining ground calibration and aerial dynamic real-time calibration was proposed. Then, based on the spatial geometric relationship, the static estimation and dynamic trajectory measurement methods of rotor axial center were discussed. Finally, the ground accuracy verification test of the measurement system and the rotor axial center trajectory measurement test of the helicopter ground start-up state were carried out. Experimental results show that the method is accurate and reliable, and the distance accuracy between points is better than 1‰, which can realize the non-contact accurate measurement of the axial center trajectory, and can also be applied to other dynamic small-value measurement tasks.

     

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