Bonjour, ceci est un commentaire. Pour supprimer un commentaire, connectez-vous et affichez les commentaires de cet article. Vous pourrez alors…
S. S. Zivanovic, K. S. Yee and K. K. Mei, “A subgridding Method for the Time-Domain Finite-Difference Method to Solve Maxwell’s Equations,” IEEE Transactions on Microwave Theory and Techniques, Vol. 39, No.3, March 1991, pp. 471-479.
- Listed: 30 May 2026 6 h 38 min
Description
S. S. Zivanovic, K. S. Yee and K. K. Mei, “A subgridding Method for the Time-Domain Finite-Difference Method to Solve Maxwell’s Equations,” IEEE Transactions on Microwave Theory and Techniques, Vol. 39, No.3, March 1991, pp. 471-479.
## A subgridding Method for the Time-Domain Finite-Difference Method to Solve Maxwell’s Equations
The realm of electromagnetic simulations has witnessed significant advancements over the years, with various numerical methods being developed to solve Maxwell’s equations efficiently. Among these, the Time-Domain Finite-Difference (FDTD) method stands out for its simplicity and versatility in handling complex electromagnetic problems. However, achieving high accuracy, especially in regions with fine geometrical details or large electromagnetic property variations, often necessitates extremely fine grids, leading to increased computational costs. It is in this context that subgridding techniques become invaluable. A seminal paper by S. S. Zivanovic, K. S. Yee, and K. K. Mei, published in the IEEE Transactions on Microwave Theory and Techniques in March 1991, introduced a subgridding method for the FDTD technique to solve Maxwell’s equations more efficiently.
### Understanding the FDTD Method and Its Limitations
The FDTD method discretizes both space and time, solving Maxwell’s equations in a leapfrog manner. This approach allows for the direct integration of Maxwell’s equations in the time domain, providing a straightforward path to simulating electromagnetic wave interactions with various media. However, as mentioned, the requirement for fine grids to accurately model small features or high-contrast material properties results in a significant increase in the number of grid cells. This, in turn, escalates the computational resources required, making simulations of large or complex systems prohibitively expensive in terms of time and computing power.
### The Subgridding Method: An Innovative Solution
The subgridding method proposed by Zivanovic, Yee, and Mei offers an innovative solution to this challenge. By allowing for locally refined grids in regions of interest while maintaining a coarser grid elsewhere, the method effectively balances accuracy and computational efficiency. The basic premise involves embedding a finer grid within a coarser grid, where the finer grid is used to model areas with complex geometries or material properties. This approach enables the accurate capture of local electromagnetic phenomena without the need for uniformly fine grids across the entire computational domain.
### Key Features and Benefits
The subgridding FDTD method boasts several key features and benefits. **Improved Accuracy**: By allowing for finer grids in critical regions, the method significantly enhances the accuracy of electromagnetic simulations. **Flexibility**: It can be applied to a wide range of electromagnetic problems, from microwave engineering to photonics. **Efficiency**: The method reduces the computational cost compared to uniformly fine grid FDTD simulations, making it feasible to tackle larger and more complex problems.
### Applications and Future Directions
The applications of the subgridding FDTD method are vast, encompassing areas such as antenna design, electromagnetic compatibility (EMC) analysis, and the study of metamaterials. As computational electromagnetics continues to evolve, the integration of subgridding techniques with other numerical methods and the development of more sophisticated grid transition algorithms are likely to enhance the method’s capabilities further.
### Conclusion
The subgridding method for the Time-Domain Finite-Difference technique, as introduced by Zivanovic, Yee, and Mei, represents a significant advancement in the field of computational electromagnetics. By addressing the challenge of efficiently simulating complex electromagnetic phenomena with high accuracy, this method has paved the way for more detailed and realistic modeling of electromagnetic systems. As researchers continue to push the boundaries of electromagnetic simulations, techniques like subgridding will play a crucial role in enabling the design and analysis of next-generation electromagnetic devices and systems.
### References
– Zivanovic, S. S., Yee, K. S., & Mei, K. K. (1991). A subgridding method for the time-domain finite-difference method to solve Maxwell’s equations. *IEEE Transactions on Microwave Theory and Techniques*, *39*(3), 471-479.
44 total views, 1 today
Sponsored Links
A. Sendonaris, E. Erkip, and B. Aazhang, “User cooperation diversity Part I...
A. Sendonaris, E. Erkip, and B. Aazhang, “User cooperation diversity Part I: System description,” IEEE Transactions on Communications, Vol. 51, No. 11, pp. 1927-1938, November […]
No views yet
S. M. Alamouti, “A simple transmit diversity technique for wireless communi...
S. M. Alamouti, “A simple transmit diversity technique for wireless communications,” IEEE Journal on Selected Areas in Communications, Vol. 16, No. 8, pp. 1451-1458, 1998. […]
1 total views, 1 today
E. Telatar, “Capacity of multi-antenna Gaussian channels,” European Transac...
E. Telatar, “Capacity of multi-antenna Gaussian channels,” European Transactions on Telecommuni- cations, Vol. 10, No. 6, pp. 585-596, 1999. **E. Telatar, “Capacity of multi‑antenna Gaussian […]
No views yet
G. J. Foschini and M. J. Gans, “On limits of wireless communications in a f...
G. J. Foschini and M. J. Gans, “On limits of wireless communications in a fading environment when using multiple antennas,” Wireless Personal Communications, Vol. 6, […]
No views yet
SJ/T 11310-2005, “Information device intelligent grouping and resource shar...
SJ/T 11310-2005, “Information device intelligent grouping and resource sharing Part1: Core protocol,” People’s Republic of China Electronic Industry Standard, September 2005. **SJ/T 11310-2005, “Information device […]
1 total views, 1 today
UPnP Forum, “UPnP device architecture 1.0,” April 2008.
UPnP Forum, “UPnP device architecture 1.0,” April 2008. None
1 total views, 1 today
Y. Y. Zeng and Z. H. Zuo, “Design and implementation of SSL protocol on emb...
Y. Y. Zeng and Z. H. Zuo, “Design and implementation of SSL protocol on embedded devices,” Journal of Chengdu University of Information Technology, Chengdu, No. […]
1 total views, 1 today
Y. Zhu, “Design and realization of an improved HTTP digest authentication s...
Y. Zhu, “Design and realization of an improved HTTP digest authentication scheme,” Study on optical communication, Wuhan, No. 4, pp. 59-62, 2008. Okay, I need […]
1 total views, 1 today
Bosch, “CAN specification Version 2.0,” September 1991.
Bosch, “CAN specification Version 2.0,” September 1991. **”Bosch, ‘CAN specification Version 2.0,’ September 1991.”** The automotive industry has undergone significant transformations over the years, with […]
2 total views, 2 today
F. Q. Wu, J. Li, and D. S. Hu, “Application of LON works field bus technolo...
F. Q. Wu, J. Li, and D. S. Hu, “Application of LON works field bus technology in home network system,” Journal of Chengde Petroleum College, […]
No views yet
A. Sendonaris, E. Erkip, and B. Aazhang, “User cooperation diversity Part I...
A. Sendonaris, E. Erkip, and B. Aazhang, “User cooperation diversity Part I: System description,” IEEE Transactions on Communications, Vol. 51, No. 11, pp. 1927-1938, November […]
No views yet
S. M. Alamouti, “A simple transmit diversity technique for wireless communi...
S. M. Alamouti, “A simple transmit diversity technique for wireless communications,” IEEE Journal on Selected Areas in Communications, Vol. 16, No. 8, pp. 1451-1458, 1998. […]
1 total views, 1 today
E. Telatar, “Capacity of multi-antenna Gaussian channels,” European Transac...
E. Telatar, “Capacity of multi-antenna Gaussian channels,” European Transactions on Telecommuni- cations, Vol. 10, No. 6, pp. 585-596, 1999. **E. Telatar, “Capacity of multi‑antenna Gaussian […]
No views yet
G. J. Foschini and M. J. Gans, “On limits of wireless communications in a f...
G. J. Foschini and M. J. Gans, “On limits of wireless communications in a fading environment when using multiple antennas,” Wireless Personal Communications, Vol. 6, […]
No views yet
SJ/T 11310-2005, “Information device intelligent grouping and resource shar...
SJ/T 11310-2005, “Information device intelligent grouping and resource sharing Part1: Core protocol,” People’s Republic of China Electronic Industry Standard, September 2005. **SJ/T 11310-2005, “Information device […]
1 total views, 1 today
UPnP Forum, “UPnP device architecture 1.0,” April 2008.
UPnP Forum, “UPnP device architecture 1.0,” April 2008. None
1 total views, 1 today
Y. Y. Zeng and Z. H. Zuo, “Design and implementation of SSL protocol on emb...
Y. Y. Zeng and Z. H. Zuo, “Design and implementation of SSL protocol on embedded devices,” Journal of Chengdu University of Information Technology, Chengdu, No. […]
1 total views, 1 today
Y. Zhu, “Design and realization of an improved HTTP digest authentication s...
Y. Zhu, “Design and realization of an improved HTTP digest authentication scheme,” Study on optical communication, Wuhan, No. 4, pp. 59-62, 2008. Okay, I need […]
1 total views, 1 today
Bosch, “CAN specification Version 2.0,” September 1991.
Bosch, “CAN specification Version 2.0,” September 1991. **”Bosch, ‘CAN specification Version 2.0,’ September 1991.”** The automotive industry has undergone significant transformations over the years, with […]
2 total views, 2 today
F. Q. Wu, J. Li, and D. S. Hu, “Application of LON works field bus technolo...
F. Q. Wu, J. Li, and D. S. Hu, “Application of LON works field bus technology in home network system,” Journal of Chengde Petroleum College, […]
No views yet
Recent Comments