经常核对陀螺罗经和磁罗经航向。
主罗经和分罗经航向示度不匹配。
The course indication of Repeaters does not match that of gyro compass.
给出了一种高精度的磁罗经航向系统,应用神经网络进行剩余自差的自动校正。
Thispaper presented one high precision magnetic heading system, and use neural network to correct the remnant deviation of compass.
文章介绍了陀螺罗经航向信号数字化处理系统的软、硬件结构,数字航向的显示,罗经性能参数的测试方法。
This paper introduces the software and hardware structure, display of digital course and the testing method of compass parameter of gyrocompass course signal digital processing system.
LCR- 100罗经ahrs系统是寻北姿态航向参考系统,基于最先进的光纤陀螺和微机电(MEMS)加速度计。
The LCR-100 Gyrocompass AHRS is a north finding attitude and heading reference system based on a state-of-the-art fibre-optic gyro and micro-electromechanical (MEMS) accelerometers.
电罗经作为船舶航行重要的仪器之一,要求其复示器能实时、准确地反应船舶航向。
The gyro-compass is one of most important instruments in the ships navigation, its repeater must be able real-time, accurately to respond the ships direction.
给出了实验测试数据。测试结果表明:采用跟踪式航向解算方法的磁通门罗经的航向精度满足地磁罗经精度要求。
The experimental results show that azimuth accuracy of fluxgate compass using tracking azimuth calculation method meets the accuracy requirements of geomagnetic compass.
给出了实验测试数据。测试结果表明:采用跟踪式航向解算方法的磁通门罗经的航向精度满足地磁罗经精度要求。
The experimental results show that azimuth accuracy of fluxgate compass using tracking azimuth calculation method meets the accuracy requirements of geomagnetic compass.
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