1) adaptive precise time-history integration algorithm
自适应精细时程积分算法
2) adaptive precise integration
自适应精细积分
3) adaptive integral method
自适应积分算法
1.
An accurate and efficient method that combines the adaptive integral method (AIM) and the method of moments (MoM) based on the coupled volume-surface integral equation (VSIE) is presented to calculate the electromagnetic scattering and radiation properties of arbitrarily shaped metallic and dielectric targets.
将自适应积分算法与基于体面混合积分方程的矩量法相结合快速分析任意结构金属/介质混合目标的电磁散射和辐射特性。
2.
The adaptive integral method (AIM) is combined with the volume integral equation (VIE) to analyze the radiation of the antenna with a arbitrary shaped radome.
将自适应积分算法与体积分方程相结合分析任意形状天线罩对天线辐射特性的影响。
4) precise time-integration method
精细时程积分法
1.
Flutter stability analysis of suspension bridges by precise time-integration method;
悬索桥颤振稳定性分析的精细时程积分法
2.
A precise time-integration method for solving RLW equation with initial and periodic boundary conditions;
关于RLW方程的初始值和周期边界值问题的精细时程积分法
3.
On precise time-integration method for second order hyperbolic differential equations;
二阶双曲型方程的精细时程积分法
5) precise time integration method
精细时程积分法
1.
The precise time integration method, Wilson θ method and Newmark method were used.
采用精细时程积分法、威尔逊θ法和纽马克法进行计算 。
2.
Course of response is obtained by using precise time integration method; after Fourier transform, the frequency which is opposite to peak value of frequency response is natural frequency of structures.
用精细时程积分法求得响应的时程 ,进行傅里叶变换后 ,取频率响应峰值对应的频率 ,得到了结构的固有频率。
6) adaptive quadrature algorithm
自适应数值积分算法
1.
Coupled IFFT algorithm and adaptive quadrature algorithm were empl.
然后采用IFFT算法和自适应数值积分算法计算解析解中的二维积分,得到了包括低音速、跨音速和超音速移动荷载作用下位移的数值结果。
2.
Coupled IFFT algorithm and adaptive quadrature algorithm was employed to compute double integrals in the analytical solutions.
然后采用IFFT算法和自适应数值积分算法计算二维积分,得到了低音速、跨音速和超音速移动荷载作用下动力响应的数值结果。
补充资料:自适应自整定调节
分子式:
CAS号:
性质:在调节系统中,对象的动态特性往往是变化的,如果变化不大或调节的质量要求不高时,可以采用固定规律的调节器,假若变化大,质量要求又高时,需要选择可变规律调节器。调节器参数的改变是直接按照对象特性的变化进行的,叫作自适应调节。对象的识别和调节器的规律的计算都用一个计算装置进行,就叫自适应自整定调节,或简称自整定调节。
CAS号:
性质:在调节系统中,对象的动态特性往往是变化的,如果变化不大或调节的质量要求不高时,可以采用固定规律的调节器,假若变化大,质量要求又高时,需要选择可变规律调节器。调节器参数的改变是直接按照对象特性的变化进行的,叫作自适应调节。对象的识别和调节器的规律的计算都用一个计算装置进行,就叫自适应自整定调节,或简称自整定调节。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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