On the other hand, many techniques used nowadays in computational electromagnetics rely on processing matrices.
另一方面,当今许多计算电磁学技术还是依赖于矩阵的。
This paper introduce Computational Electromagnetics a new subject in analysis methods of electromagnetic field, and introduce the application of it in field of EMC.
本文介绍了一种与电磁兼容仿真中电磁场计算有关的新兴学科——计算电磁学,并对其在电磁兼容仿真中的应用进行了介绍。
In this article, digital image processing, electromagnetic theory, computer version and computational electromagnetics were applied in getting the biology information.
本文将数字图像处理技术、计算机视觉技术、电磁场理论以及计算电磁学与生物学结合起来,从而更好地解决生物问题。
The interpolation and extrapolation are widely used in the field of computational electromagnetics, such as antenna designing, microwave technique, radar scattering model, and so on.
内插和外推算法是电磁场领域的常用算法,它在天线设计、微波技术、雷达目标散射建模等各种电磁场计算领域都要用到。
Computational electromagnetics is a young and growing discipline, expanding as a result of the steadily increasing demand for software for the design and analysis of electrical devices.
计算的电磁学是一种年轻并且增长训练,由于稳定增加的电气装置的设计和分析的对软件的需求扩大。
This paper deal with the a computational electromagnetics method, which enables the interactions between arbitrary shape antennas and inhomogeneous dielectric volumes in time domain to be analyzed.
本文所研究的主要内容是导体和邻近的非均匀介质与时域电磁波相互作用的数值分析问题。
In this paper, the computational Mechanics and electromagnetics have been combined to develope the theory and design of EHD.
文中将计算力学方法与电磁场理论结合起来,建立了电磁式谐波传动的理论和设计方法。
In this paper, the computational Mechanics and electromagnetics have been combined to develope the theory and design of EHD.
文中将计算力学方法与电磁场理论结合起来,建立了电磁式谐波传动的理论和设计方法。
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