| 1. | Strapdown inertial navigation system
捷联式惯性导航系统 |
| 2. | Strapdown magnetic heading system and error compensation based on magnetoresistive sensor
磁阻传感器的捷联式磁航向仪及误差补偿 |
| 3. | Using data processing methods to improve the accuracy of strap - down north finder for vehicles
采用数据处理方法提高车载捷联式寻北仪的精度 |
| 4. | 3 . error characteristics of the strapdown inertial navigation are investigated using dual quaternion
3 .运用对偶四元数代数研究了捷联式惯性导航的误差特性。 |
| 5. | Finally , combining algorithm flow - chart of the sins , all work realizes test and validation of the hardware circuit system
最后,结合捷联式惯性导航系统算法流程,对硬件电路系统进行了测试验证,并给出了测试结果。 |
| 6. | Strapdown inertial navigation system ( sins ) is a kind of very advanced inertial navigation technology , and it is the developing direction of inertial navigation
捷联式惯性导航系统是一种十分先进的惯性导航技术,是近年来惯性技术的一个发展方向。 |
| 7. | Strap - - down inertial navigation system ( sins ) is a kind of very advanced inertial navigation techno1ogy , and it is the deve1oping direct ion of inertia1 navigat ion
捷联式惯性导航系统是一种十分先进的惯性导航技术,是近年来惯性技术的一个发展方向。 |
| 8. | This paper combines the wanderazimuth strapdown inertial navigation system with virtual instrument and designs a inertial navigation virtual instrument software
本论文以游移方位坐标系捷联式惯性导航系统为对象,与虚拟仪器技术结合起来,设计了一个惯性导航虚拟仪器软件。 |
| 9. | To solve the above problems existing in detection approach , a new way to detect the structure deformation based on strap down fiber optic gyro is presented in the paper
本文针对上述工程结构形变测量方法中存在的问题,提出了一种基于捷联式光纤陀螺惯性测量系统的切实可行的连续测量方法。 |
| 10. | 1 . through reinterpreting the rationale of the strapdown inertial navigation in terms of dual quaternion algebra , we obtain three dual quaternion kinematic equations that take the same forms as the conventional attitude quaternion rate equation
1 .运用对偶四元数代数重新诠释捷联式惯性导航的基本原理,得到了三个对偶四元数运动学方程,其形式均与姿态四元数微分方程一致。 |
