| 1. | The element - free method for electromagnetic calculation
无单元法在电磁场数值计算中的应用研究 |
| 2. | Numerical calculation of electromagnetic fields
电磁场数值计算 |
| 3. | Numerical calculation of electromagnetic fields
电磁场数值计算 |
| 4. | Application of wavelet approach to electromagnetic field evaluation
小波算法在电磁场数值计算中的应用 |
| 5. | The pilot study of the element - free galerkin method applied to 2d electromagnetic field
无单元法在二维电磁场数值计算中的初步研究 |
| 6. | 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。 |
| 7. | After a micro - strip antenna is designed and implemented , its test result is compared with result from commercial software and the program based on fdtd , it shows that fdtd is a highly efficient technique for numerical application in electromagnetics
在制作出一个贴片天线后,将实验结果与商用软件和自己编的软件计算结果进行比较,证明fdtd法是一种行之有效的电磁场数值计算方法。 |
| 8. | This paper introduces the fundamental theory of complementary fem and combines complementary fem with energy methods to calculate electromagnetic field , especially to compute the electromagnetic parameters of the electromagnetic devices
本文介绍了互补有限元法的基本理论,并结合能量法将互补有限元法应用于电磁场数值计算,为电磁装置中电磁参数计算提供了符合工程分析精度要求的实用的数值计算方法。 |
| 9. | In chapter one , first we introduce the importance and history of the numerical computational electromagnetics , then introduce status and some researched results of the two methods . at last we introduce the researched results about the two methods in our paper
在第一章概论中首先阐述了电磁场数值计算的发展和它的重要性,简单回顾了我们研究的两种时域计算方法的发展历史和成果,介绍了本文研究的主要内容。 |
| 10. | In this paper there are some theoretical and applying problems of two numerical computational electromagnetic methods , which are marching - time - method of integral equation in time - domain ( ietd ) and method of finite difference in time - domain ( fdtd ) , are studied
本文的研究内容是时间域电磁场数值计算方法的理论和应用问题,包括对两种有很好应用前景的方法即时域积分方程递推解法( ietd )和时域有限差分方法( fdtdl ) 。 |
