摘要
为方便操作员快速捕捉并瞄准目标,提出一种适用于机载光电观瞄系统的线性运动补偿方法。该方法借助地面目标相对载机在初始‘东北天’坐标系下的速度矢量进行分解,得出目标相对光电系统在惯性坐标下的角速度,并根据解算出的角速度值实时进行伺服补偿,驱动光电转塔于手动模式下,当操作员不操控光电转塔时,系统的瞄准线能够自动地指向地面目标区域。该方法已在某型无人机用光电观瞄系统挂飞试验中进行了验证,结果表明:在电视观瞄具的小视场(0.7°×0.5°)下,地面目标点、瞄准线指向点相对载机点的张角在方位和俯仰方向均小于该视场的1/6。
In order to capture and aim target promptly for operators, we developed a new liner motion compensation (LMC) algorithm for EO system of aeroplane including helicopter and unmanned aerial vehicle (UAV). By recounting the velocity vector of ground target in initial east-north-up (ENU) coordinates,the angular velocity of ground target relative to EO system in inertial coordinates can be obtained, the servo software then used the value to compensate. This method could drive the line of sight (LOS) of EO system to focus on the ground target area automatically while the operator does not operate the turret in system's manual mode. This method has been validated by a UAV's flying experiment. The result indicates that in the narrow field of view (NFOV,0.7°×0.5°) of TV camera,the opening angle between ground target point and LOS point to the UAV point is all less than 1/6 FOV of the observing camera in azimuth and elevation direction.
出处
《应用光学》
CAS
CSCD
北大核心
2016年第1期1-5,共5页
Journal of Applied Optics
关键词
线性运动补偿
光电观瞄系统
坐标转换
liner motion compensation
EO sighting system
coordinates transform
