1) generalized error coefficient
广义误差系数
2) Generalized error band
广义误差带
3) error coefficient
误差系数
1.
Study on Calibration of SIMS Error Coefficients with Bayesian Dynamic Model;
基于贝叶斯动态模型的惯组误差系数标定方法研究
2.
Based on studying the measure- ment principles and causes of deviation of EMC,two novel methods for error coefficient solution and error compensa- tion are presented.
针对磁航向测量中存在的各种误差,分析了电子磁罗盘(EMC)系统误差的形成原因与机理,在此基础上系统地研究了在任意姿态下电子磁罗盘磁航向误差校正问题,并且具体给出了2种误差系数的求解方法以及相应的误差补偿方法。
3.
Multi factors effecting the shift of IMU error coefficients and being hard to extract are synthesized to one factor, and a certain system is assumed to cause the shift of IMU error coefficients, thereby the time sequence modeling is adopted to predict the shift of IMU error coefficients and in this way the indeterminacy in the factors analysis can be eliminated and the workload can be reduced.
将影响 IMU误差系数漂移并难于分离的多种因素综合为一种因素 ,假定 IMU误差系数的漂移由一特定系统所引起 ,从而采用时间序列建模方法进行 IMU误差系数漂移的预测。
5) general dynamic error
广义动态误差
6) generalized geometric error
广义几何误差
1.
The method represents the effects of all possible error sources on robotic mechanisms as generalized geometric errors in a unified manner.
通过任意两坐标系间的向后微分关系 ,利用运动学方程以及并联机构的环路特性 ,建立了微机器人的广义几何误差模型。
补充资料:广义
范围较宽的定义(跟‘狭义’相对):~的杂文也可以包括小品文在内。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条