The conic error of RLG's was analyzed in the help of the two-sample iteration algorithm by high-frequency experiment.
通过高频振动实验,利用双子样迭代算法分析了激光陀螺在振动条件下的圆锥误差。
The conic errors produced by frequency band narrow, quantization error, and installation error of gyro and low attitude update rate were analyzed.
研究了由陀螺频带不足、量化误差和安装误差,以及姿态更新率过低造成的圆锥误差。
It was shown that the conic error can be compensated by two-sample iteration algorithm with high-frequency vibration. The precision of SINS can be improved by coning compensation.
结果表明,二频机抖激光陀螺在振动条件下的圆锥误差可以通过双子样迭代算法补偿,提高了捷联惯导系统的精度。
It was shown that the conic error can be compensated by two-sample iteration algorithm with high-frequency vibration. The precision of SINS can be improved by coning compensation.
结果表明,二频机抖激光陀螺在振动条件下的圆锥误差可以通过双子样迭代算法补偿,提高了捷联惯导系统的精度。
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