1·Two-wire operation digital signal is the key in magnetic heading sensor.
在磁航向传感器中,两线制数字信号的传输是极为关键的技术。
2·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。
3·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。
4·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。
5·In the paper, the theory of three-axis magnetic heading measurement with tilting compensation is introduced, and the cause of heading error is analyzed.
介绍了倾斜补偿下三轴磁航向测量的基本原理,分析了航向误差的形成原因。
6·Through analysing the reason about three axis magnetic heading measured principle and error, a fast and effective method about compensation is brought forward.
通过对三轴磁航向测量原理及误差形成原因的分析,提出了一套快速有效的补偿办法。
7·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。
8·To calibrate and compensate the compass error of magnetic heading in a carrier with constant pitch Angle, the deviation compensation algorithm (DCA) for magnetic deviation compensation is put forward.
针对具有恒定俯仰角度载体的磁航向罗差标定和补偿问题,提出了一种用于磁罗差修正的偏差补偿算法(DCA)。
9·The Meridian Digital Repeater indicates magnetic or true heading to 1/10th of a degree and rate of turn via a red LED bar graph.
子午线数字中继器通过一个红色LED条线图测量磁场或真是指向,误差仅为1/10度。
10·Normally found in standard inertial reference systems, gyro-compassing enables the unit to establish precise heading within moments, without the use of a magnetic flux valve or magnetometer.
通常放置在标准惯性参考系统中,陀螺仪能够使设备在瞬间建立精确的航向,而不使用磁通阀或者磁力计。