游戏程序使用加速度传感器和陀螺仪来感应追踪用户的动作,而手机导航应用程序则依赖于内置的GPS。
Gaming ones use accelerometers and gyroscopes to track users' motions, while mobile-navigation apps rely on inbuilt GPS systems.
该电路也是在制导控制系统和导航系统的高性能陀螺仪的使用。
This circuitry is also in use in high-performance gyroscopes in guidance control systems and navigation systems.
陀螺仪用于船舶、飞机和宇宙飞船中的导航设备。
Gyroscopes are used in navigational instruments for ships, aircraft, and spacecraft.
他们可能是喷气推进的,由陀螺仪系统进行导航的。
They're probabIy controled by jets, navigated with a gyroscope system.
如果陀螺仪发生故障,天体导航系统就会接替它继续进行工作。
Should the gyroscopes break down, the celestial system would take over.
提出了一种递推导航方案,此方案包括了前后向信号、陀螺仪信号、速度脉冲信号以及气压计信号。
A inertial navigation system, this module includes forward back pluse signals, the gyro signal, speed pulse signal and the barometer signal.
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。
The design of gyroscope data acquisition system for Marine strapdown inertial navigation system is presented.
本文以实际工程项目为背景—船用平台式惯性导航系统,对陀螺仪的各种漂移的建模及补偿进行了研究。
This dissertation, based on the development task background of a project - gimbaled Inertial Navigation System for Ship, addresses the modeling and compensation of gyros drifts in a gimbaled INS.
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。
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- 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-500 is based on Optolink's TRS-500 FOGs, precise accelerometers and board computer.
陀螺仪的零偏漂移(biasdrift)误差和比例因子(scalefactor)误差直接决定了DR(deadreckoning)导航的精度。
The parameters of bias drift and the scale-factor are the key factors determining the precision of vehicle navigation.
该陀螺仪性能好、体积小、功耗低,在中等精度的惯性导航系统中有较好的应用前景。
The proposed vibratory gyroscope has a promising prospect for the inertial navigation system with a medium accuracy due to its high performance, small volume and low power consumption.
该陀螺仪性能好、体积小、功耗低,在中等精度的惯性导航系统中有较好的应用前景。
The proposed vibratory gyroscope has a promising prospect for the inertial navigation system with a medium accuracy due to its high performance, small volume and low power consumption.
应用推荐