An online identification algorithm of odometer's scale factor in land used strapdown inertial navigation system is put forward.
提出陆用捷联惯导系统中里程计刻度因子的在线辨识算法。
The algorithm of strapdown gyrocompass system is replanted into DSP for realization, and feasibility is validated by experiment, so the design of strapdown gyrocompass system based on FOG is finished.
将捷联式罗经算法移植到DSP系统中加以实现,通过实验验证了整个系统算法的可行性,从而完成了捷联式光纤陀螺罗经系统的设计。
So-called GFSINS (gyroscope free strapdown inertial navigation system) is a kind of strapdown inertial navigation system with only accelerometers but no gyroscope.
无陀螺捷联惯导系统就是惯性元件只用加速度计,而不用陀螺的惯导系统。
According to the feature of GALILEO system, this paper focuses on the GALILEO/Strapdown Inertial Navigation System (SINS)pseudo range integrated navigation mode.
GALILEO是新一代的全球卫星定位系统。文章根据GALILEO系统的特点,有针对性地研究了GALILEO/捷联惯导(SINS)伪距组合导航模式。
At appraising the reliability of the missile-borne strapdown inertial navigation system, the reliability information for the key groups are needed.
在评价弹用捷联惯导系统的可靠性时,需要其关键件的可靠性信息。
Single gyro strapdown inertial navigation system (SGSINS) has many advantages, for example, small volume, light weight, low cost, high reliability and so on.
单陀螺捷联惯导系统(SGSINS)不仅具有和经典捷联惯导系统相同的基本功能,而且有体积小、重量轻、成本低、可靠性高等优点。
The design of gyroscope data acquisition system for Marine strapdown inertial navigation system is presented.
介绍了船用捷联惯性导航系统中陀螺仪数据采集系统的设计。
During a transfer alignment of strapdown inertial navigation system, Kalman filter models are linear time varying system whose analysis of observability is difficult.
捷联惯导系统的卡尔曼滤波模型在传递对准时,为线性时变系统,而线性时变系统的可观测性分析比较困难。
Base on wavelet denoising theory as well as the characteristic of the signal, a wavelet denoising method applied to Strapdown north seeking system was proposed.
文章基于小波变换的消噪原理,结合待测信号的特点,创造性地提出一种适用于捷联寻北仪的小波消噪法。
A mini digital Attitude and Heading Reference System (AHRS) based on DSP is designed, which can be used on air-to-air missile with Strapdown Inertial Navigation System (SINS) as mid-course guidance.
论文针对使用捷联惯导系统为中制导的近距空空导弹,设计了一种基于数字信号处理器(dsp)的小型数字式捷联航姿应用系统。
The paper introduces a very low cost strapdown inertial guidance system consisting of piezoelectric gyros and low cost accelerometers.
提出一种低成本捷联惯性制导系统方案。该系统主要由压电陀螺和低成本加速度计构成。
It is an effective way in integrated navigation by using Strapdown Inertial navigation System (SINS), GPS and Doppler Velocity Log (DVL).
利用捷联惯导(SINS)、GPS定位系统和多普勒计程仪(DVL)进行组合导航是水下运载器导航定位的有效方式。
Simulation and test results of a laser gyro strapdown inertial navigation system show that the improved calibration scheme can increase the calibration accuracy and improve the navigation performance.
仿真和试验对标定编排改进前后的标定精度和导航性能进行了对比,表明改进编排方案可以提高陀螺和加速度计安装误差角标定精度,改善系统导航性能。
The main navigation algorithm of strapdown inertial navigation system has been introduced, and the basic principles of strapdown inertial navigation system has been revealed.
对目前主要的捷联惯性导航系统解算方法进行介绍并对捷联惯性导航系统的基本原理进行分析。
Using astronavigation theory, the algorithm of calibrating the constant gyro drifts of ESG strapdown inertial navigation system and carrier heading is presented in this paper.
本文应用天文导航理论,根据GPS提供的位置信息,对静电陀螺捷联导航系统陀螺常值漂移和载体航向角进行校正的算法进行了研究。
In this paper, based on the inertial navigation equation, a novel model for the laser gyro strapdown inertial navigation system is provided.
本文从惯性导航基本方程出发,推导了激光陀螺捷联式惯性导航系统的系统级标定的一种误差标定模型。
A simple and utility field fast calibration method for the gyroflex strapdown inertial system has been presented in this paper .
本文给出了捷联式惯性导航系统一种简单实用的场地标定方法。
Strapdown Inertial Navigation System SINS-500 is based on Optolink's TRS-500 FOGs, precise accelerometers and board computer.
捷连惯性导航系统SINS- 500是基于TRS - 500的光纤陀螺仪、精密加速度传感器以及板式集散地。
Strapdown Inertial Navigation System SINS-1000 is based on Optolink's SRS-1000 FOGs, precise accelerometers and board computer.
捷连惯性导航系统SINS- 1000是基于SRS - 1000的光纤陀螺仪、精密加速度传感器以及板式集散地。
The paper introduces a new experience platform which is based on the combination of the augmented reality technology, strapdown inertial navigating system and force-feedback technology.
本文介绍了一个结合增强现实、惯性导航和力反馈技术的体验平台。
On Improving Strapdown Inertial Navigation System(SINS) with Velocity Information of Active Radar Seeker (ARS);
主动雷达导引头可提供精确且稳定的测速信息,具有辅助惯导的潜力。
On Improving Strapdown Inertial Navigation System(SINS) with Velocity Information of Active Radar Seeker (ARS);
主动雷达导引头可提供精确且稳定的测速信息,具有辅助惯导的潜力。
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