平台罗经模糊控制的应用研究。
Application of fuzzy control in platform gyrocompass is studied.
新型平台罗经计算机控制系统的设计和实现。
A new type of computer control system for platform gyrocompass is designed and realized.
从而实现对三轴四频陀螺平台罗经理论和关键技术的验证。
The key technologies and control parameters of the RLG platform gyrocompass system are specially studied.
分别讨论了平台罗经和捷联垂直参考基准提供摇摆数据时前馈稳定的实现方法。
Discuss the methods to provide rock data of feedforward of gyrocompass and strap-down inertial system.
与国内现有的平台罗经相比,在系统可靠性和智能化程度方面均有了显著的提高。
Compared with native platform gyrocompass, the gyrocompass has advantage in aspects of reliability and intelligence.
本文利用现代控制理论的方法对舰船姿态基准——平台罗经的修正回路进行了讨论。
A new design method of compensation loop for the stabilized gyrocompass, as a ship attitude reference, is derived by using modern control theory.
给出了一种海上试验时建立速度基准的方法,它是利用试验舰上已有的DGPS和平台罗经。
This paper presents a method of setting up a speed-reference during sea trial, which USES the DGPS and stabilized gyro compass onboard ship.
典型陀螺仪器(包括陀螺罗经、陀螺找北仪、陀螺地平仪、平台罗经、速率陀螺仪和积分陀螺仪等)的工作原理;
Gyroscope drift and its measurement. B. Principle of typical gyroscope instruments, such as gyro compass, gyro north finder, gyro horizon, platform compass, rate gyroscope and integrating gyroscope.
典型陀螺仪器(包括陀螺罗经、陀螺找北仪、陀螺地平仪、平台罗经、速率陀螺仪和积分陀螺仪等)的工作原理;
Gyroscope drift and its measurement. B. Principle of typical gyroscope instruments, such as gyro compass, gyro north finder, gyro horizon, platform compass, rate gyroscope and integrating gyroscope.
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