This method implements a new technique called "Graphical Electromagnetic Computing (GRECO)".
该方法利用了“图形电磁计算(GRECO)”的新技术。
The features, applications and electromagnetic computing method of single and two layer winding were introduced.
介绍了单双层绕组的特点、应用情况及电磁计算的方法。
At different wave band and polarization, the high frequency RCS of a model was computed with the graphical electromagnetic computing (GRECO) method.
在不同波段不同极化下,应用图形电磁计算(GRECO)法计算了某模型的高频雷达散射截面(RCS)。
To compute Radar Cross Section (RCS) in high frequency region, a method that combined with fast modeling and improved graphic electromagnetic computing was presented.
针对舰船雷达目标雷达散射截面计算问题,提出了一种将快速建模和改进的图形电磁算法相结合的方法。
Graphical Electromagnetic computing (GRECO) is one of the valuable method for computing the radar cross section (RCS) of complex radar target in high frequency region.
图形电磁计算(GRECO)方法是计算复杂目标高频区雷达散射截面(RCS)的有效方法之一。
Graphical Electromagnetic computing (GRECO) is one of the valuable methods for computing the radar cross section (RCS) of complex radar target in high frequency region.
图形电磁计算(GRECO)方法是计算复杂目标高频区雷达散射截面(RCS)的有效方法之一。
Numerical examples are shown to highlight the effects introduced by the anisotropic surface impedance. The method is realized by using the graphic electromagnetic computing (GRECO).
同时利用图形电磁计算( GRECO)方法实现对各向异性材料的曲面结构的电磁计算。
Results show that the application of parallel technique to electromagnetic FEM computing is effective and feasible.
结果表明,将并行技术应用于电磁有限元计算是有效并且可行的。
The objective of studying and developing modern computing electromagnetic theory and algorithm is to solve all kinds of engineering electromagnetic problems.
学习和研究现代电磁场数值计算理论和算法的最终目的是用其解决各种实际的复杂电磁场问题。
The accuracy of the functional is key to computing the electromagnetic field using the finite element method (FEM).
在电磁场有限元分析中,使用准确的微分算法计算场量是提高计算效果的关键。
After accounting the lateral shift effect, we have discussed the measuring error of electromagnetic wave logging caused by the lateral shift effect, and given the computing method of measuring error.
论文还讨论了横向偏移效应对电磁波测井测量结果所产生的误差,并给出了误差计算方法和算例。
Especially after 90s of last century, there come a lot of great commercial EM computing engines software for the development on the theory of computational electromagnetic.
特别是上世纪90年代以后,由于计算电磁学理论的成熟,涌现出许多已经实现商用的电磁计算引擎程序。
After computing two models, the conclusion are reached that electromagnetic fields are determined by conduction currents and displacement currents.
通过两种地电模型的计算结果表明,这一频段的电磁场是由传导电流和位移电流共同决定的。
An accurate and efficient method for computing Sommerfeld type integrals is crucial in the analysis of the electromagnetic waves for radiators and scatters in the presence of a conducting half-space.
精确有效地计算索末菲尔德型积分是分析导电媒质半空间电磁波辐射和散射问题的关键。
We present a mesh convergence test of the 3-d finite difference method for computing the electromagnetic response of a buried conductivity anomaly.
本文用三维有限差分法,在计算电导率异常的电磁响应时作了一次网格收敛试验。
We present a mesh convergence test of the 3-d finite difference method for computing the electromagnetic response of a buried conductivity anomaly.
本文用三维有限差分法,在计算电导率异常的电磁响应时作了一次网格收敛试验。
应用推荐