积分运算 meaning in Chinese
integral operation
integration
Examples
- By combining the chirpogram and the mean likelihood estimation with mrkov chain monte carlo technique , it is shown that accurate estimates can be obtained for chirp signals
此方法将均值似然估计和调频图应用于mcmc中,避免了极大似然估计中的积分运算和多维搜索,减少了计算量。 - In order to solve the problems of flux estimation using the voltage model , such as the initial value and the drift of pure integrator , a flux - observer - based method is applied
利用磁通观测器,可避免用电压模型推算转子磁通时遇到的积分运算问题(初始值确定和误差积累引起的积分漂移) 。 - The advantages of this system are that the fluxes from the current model are easily obtained , all of the fluxes ( from voltage and current models ) are dc quantities , which are convenient for control and checking , and the system stability is easily analyzed . a further advantage is the avoidance of integration problems
本系统的优点之一是磁通的指令值通过计算电流模型而获得,所有的磁通量(电压、电流模型)都是直流量,便于控制和检查,系统的稳定性易于分析,另一个优点是利用磁通观测器可以避免用电压模型推算磁通时的积分运算问题。 - So far , there is no effective method for the computation of focus quantities and saddle quantities . compared with the work of other authors , complex nonlinear integrating operation and solving multivariate linear equations are avoided in computation , which are necessary in more usual approaches . the calculation and simplification of focus quantities can be readily done with these formulas and computer symbol operation systems
焦点量与鞍点量的计算至今尚无有效的方法,对比以往其他作者的工作,在计算方法上,我们避免了通常计算焦点量需要的非线性积分运算和求解多元方程组,使得焦点量极易在计算机上应用计算机符号运算系统进行快速计算和化简。 - Fiber optic gyro ( fog ) inertial system provides angular velocity and acceleration measurement of measurement body along three axes , based on the attitude matrix refreshed by outputs angular velocity to transform the acceleration from the body frame to the earth frame , finally through acceleration integral we can get the position of the measurement body in the space . fog is popular in the navigation field for many advantages , such as wide dynamic range , high resolution and all solid components
该测量方法利用捷联式光纤陀螺输出的角速度和加速度信息,测出运载体沿三个方向的加速度分量;再利用光纤陀螺输出的角速率信号,不断更新测量体的姿态转换矩阵,将加速度分量用转换矩阵更换到地理坐标系;最后经过计算机对转换后的加速度信号积分运算分别可得到运载体在三维空间中的位置。