另一方面,当今许多计算电磁学技术还是依赖于矩阵的。
On the other hand, many techniques used nowadays in computational electromagnetics rely on processing matrices.
时域有限差分(FDTD)方法因其简单灵活有效已经广泛应用于计算电磁学中。
FDTD method had been used in electromagnetism computation widely for its simple, agility and efficiency.
相对于频域方法而言,时域积分方程法有这许多优势,因此,它是计算电磁学数值方法中一个重要的方法。
The time domain integral equation (TDIE) method is one of the important methods in electromagnetic numerical simulations for several advantages over conventional method in frequency domain.
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。
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.
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。
In this article, digital image processing, electromagnetic theory, computer version and computational electromagnetics were applied in getting the biology information.
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。
This paper introduce Computational Electromagnetics a new subject in analysis methods of electromagnetic field, and introduce the application of it in field of EMC.
它是集机械学、转子动力学、控制工程、电磁学和计算机科学于一体的最具代表性的机电一体化产品。
It is the most representative machinery integration product which relates to many science fields such as mechanics, rotor dynamics, control engineering, electromagnetics, computer science and so on.
主动磁轴承技术是一种高新技术,其研究涉及到电磁学、控制理论、机械学、转子动力学以及计算机科学等多个学科的知识。
AMB is one of the advanced technology, and the research come down to Electromagnetics, Control Theory, Mechanics, Rotor Dynamics and Computer Science, and so on.
主动磁轴承技术足一种高新技术,其研究涉及到电磁学、控制理论、机械学、转于动力学以及计算机科学等众多学科的知识。
AMB is one of the advanced technology, and the research come down to Electromagnetism, Control Theory, Mechanics, Rotor Dynamics and Computer Science, and so on.
然而由于磁悬浮轴承技术是一门复杂的多学科的高新技术,其研究领域涉及到机械学、转子动力学、电磁学、电子学、控制理论和计算机科学等学科。
But the technology of AMB is an advanced technology, which relates to many science fields such as mechanics, rotor dynamics, electromagnetic, electronics, control theory, computer science and so on.
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。
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.
文中导出了任意形状的空间载流线圈磁矩的计算公式及其在均匀磁场中所受磁力矩的计算公式,结果表明本文的结论与电磁学理论的有关知识是相合的。
The formulae of magnetic moment of a space coil and moment of magnetic force acted on a coil in a uniform magnetic field are presented.
文中导出了任意形状的空间载流线圈磁矩的计算公式及其在均匀磁场中所受磁力矩的计算公式,结果表明本文的结论与电磁学理论的有关知识是相合的。
The formulae of magnetic moment of a space coil and moment of magnetic force acted on a coil in a uniform magnetic field are presented.
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