因而通过控制主要影响因素能提高该测定方法的灵敏度,减小其测量误差,以提高其准确性和重复性。
The measuring accuracy and reproducibility of the testing method could be improved obviously through increasing its sensitivity and decreasing measuring error by means of control of its major factors.
本文通过具体的例子研究了测量系统重复性误差和重现性误差的分析方法。
These analyzing methods of repeatability and reproducibility in measurement system are introduced in this paper by concrete examples.
它在超导磁场下有较高灵敏度、重复性、低线性误差,所以可以用于测量高磁场和作为低温高斯计的探头。
It may be used for the measurement of high magneticfields and be used as a probe for Gauss meter in low Temperature.
我们提出了闭合误差的概念,作为仪器测量精度的判据,测量仪器的瞬时均方差,以表征测量的重复性和可靠性。
We suggest "error of closure" asa criterion of measuring accuracy and use transient root-mean-square error to ex-press repeatability and reliability of measurement of the instrument.
由于测量数据的类型不同,以及所用的分析工具不同,对重复性误差和重现性误差的分析方法也将不同。
The analyzing methods in processing repeatability and reproducibility are different because of the different types of measuring data and different analyzing instruments.
实验证明动态误差具有一定的重复性,可用软件补偿,从而提高三坐标测量机快速测量的精度。
The test results show that the repeatability of dynamic errors is good. The errors can be compensated by software method to enhance the accuracy of the CMMs.
为了克服自然伽马测井时,由于统计起伏所造成的测量曲线重复性误差而设计制造HB97型测井仪。
HB97 bigger crystal nature gamma logging tool is designed for overcoming logging curve repeating errors due to statistical variation.
测量误差的主要来源是样品校正曲线拟合误差、样品测定重复性标准偏差。
The main sources of uncertainty come from non-linear calibration models and pre-processing step of samples.
测量误差的主要来源是样品校正曲线拟合误差、样品测定重复性标准偏差。
The main sources of uncertainty come from non-linear calibration models and pre-processing step of samples.
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