Thispaper presented one high precision magnetic heading system, and use neural network to correct the remnant deviation of 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。
A combined heading system including a digital magnetic compass and a rate gyroscope is developed.
研制了一种由数字磁罗盘和角速度陀螺组成的组合航向系统。
The design of a magnetic heading measurement system is introduced. The error sources which affect heading accuracy and the problems of current compensation algorithm are discussed.
介绍了磁航向测量系统的设计,分析了影响磁航向精度的误差来源及目前磁航向误差补偿算法存在的问题。
The errors in the Marine magnetic gradient measurement are divided into system noise, heading errors, geometrical effects, swell noise and sensor motion.
将影响梯度测量的误差主要分为四种:系统误差、航向磁效应、几何效应、波浪噪声及传感器运动误差。
Abstract: an integrated micro attitude heading reference system (MAHRS) was researched for micro aerial vehicles (MAV) based on the MEMS gyroscopes, accelerometers, and magnetic-sensors.
摘要:研究了基于硅mems陀螺、加速度计及磁阻式磁强计组合的微小型飞行器用姿态航向参考系统。
An integrated micro attitude heading reference system (MAHRS) was researched for micro aerial vehicles (MAV) based on the MEMS gyroscopes, accelerometers, and magnetic-sensors.
研究了基于硅mems陀螺、加速度计及磁阻式磁强计组合的微小型飞行器用姿态航向参考系统。
This paper presents the design principle of a kind of high accuracy digital magnetic heading measure system.
设计并研制了一种高精度的数字磁航向系统。
HPR-1 solid magnetic heading measuring system is just researched and developed out in such background.
HPR - 1型固态航姿系统是本课题为某对象机研制的模块化智能磁航向系统。
HPR-1 solid magnetic heading measuring system is just researched and developed out in such background.
HPR - 1型固态航姿系统是本课题为某对象机研制的模块化智能磁航向系统。
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