本文提出了可进行条纹非均匀性校正的最小均方误差法(MMSE)。
We develop the minimum mean square error (MMSE) method for stripe nonuniformity correction (NUC).
本文首先采用定时调度的方式判断起动状态,并采用最小均方误差法(LMS)逐步修正起动扭矩。
In this paper the start station was judged by the time scheduling approach. LMS method was used to amend the starting torque.
基于导频的信道估计方法已经受到广泛的研究,主要估计算法有最小二乘法(LS)、最小均方误差法(MMSE)和最大似然(ML)估计法等。
The channel estimation method based on pilots has received much research. It adopts the algorithms such as least squares (LS), minimum mean square error (MMSE), maximum likelihood (ML), and so on.
对动物试验的结果,相对误差小于5%,证明了这一方法的可靠性和实用意义。
The result measuring liver volume of living animal is satisfying (the relative error is less than 5%), and shows the correctness and reliability of the method.
本文对这一方法中的距离几何方法以及其误差方程进行了详细讨论。
The distance geometry and its error functions in the method have been discussed in detail.
利用这一方法,可以以软件方式完成噪声倍频程分析的数字计权处理,并且能够实现系统误差修正。
Using this technique, digital weight and digital system error modification for noise octave analyzer can be realized by software.
这一方法对于TMS320C 5402DSP芯片来说,能够在使误差、存储量和延迟较小的条件下达到实时处理。
For TMS320C5402 DSP, this method can achieve real-time processing with small error, store and delay.
设计了基于矩阵外积法的一步预测均方误差阵的改进算法。
The algorithm of matrix inversion with matrix exterior product arithmetic is improved, so that matrix inversion is avoided.
利用这一方法,可以实现虚拟噪声分析仪的数字计权和数字式系统误差修正。
Using the method, digit weight and digit system error modification for virtual noise octave analyzer can be realized.
利用这一方法,可以实现虚拟噪声分析仪的数字计权和数字式系统误差修正。
Using the method, digit weight and digit system error modification for virtual noise octave analyzer can be realized.
应用推荐