Ray tracing on hybrid convex surfaces with applications to the geometrical theory of diffraction

Wei Ming Li; Xiao De Li; Ben Qing Gao; Rui Xiang Liu

doi:10.1109/ICCEA.1999.825193

Ray tracing on hybrid convex surfaces with applications to the geometrical theory of diffraction

Wei Ming Li, Xiao De Li, Ben Qing Gao, Rui Xiang Liu

School of Integrated Circuits and Electronics

Beijing Institute of Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Ray tracing is the key step for the geometrical theory of diffraction to be applied in solving the problems of high-frequency electromagnetic scattering and radiation. The dynamic programming method is introduced in the paper and the algorithm model for ray tracing on any convex surface is developed by the method. The algorithm model is verified by tracing the rays on an infinite cylinder. It also can be applied to trace the rays on hybrid convex surfaces with inhomogeneous conductivity, and an example is given.

Original language	English
Title of host publication	1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings
Editors	Gao Benqing, Lu Xiaode
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	493-496
Number of pages	4
ISBN (Print)	0780358023, 9780780358027
DOIs	https://doi.org/10.1109/ICCEA.1999.825193
Publication status	Published - 1999
Event	1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Beijing, China Duration: 4 Nov 1999 → 4 Nov 1999

Publication series

Name	1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings

Conference

Conference	1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999
Country/Territory	China
City	Beijing
Period	4/11/99 → 4/11/99

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10.1109/ICCEA.1999.825193

Cite this

Li, W. M., Li, X. D., Gao, B. Q., & Liu, R. X. (1999). Ray tracing on hybrid convex surfaces with applications to the geometrical theory of diffraction. In G. Benqing, & L. Xiaode (Eds.), 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings (pp. 493-496). Article 00825193 (1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ICCEA.1999.825193

Li, Wei Ming ; Li, Xiao De ; Gao, Ben Qing et al. / Ray tracing on hybrid convex surfaces with applications to the geometrical theory of diffraction. 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings. editor / Gao Benqing ; Lu Xiaode. Institute of Electrical and Electronics Engineers Inc., 1999. pp. 493-496 (1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings).

@inproceedings{f5e0a74ee440414a90c536042caf33de,

title = "Ray tracing on hybrid convex surfaces with applications to the geometrical theory of diffraction",

abstract = "Ray tracing is the key step for the geometrical theory of diffraction to be applied in solving the problems of high-frequency electromagnetic scattering and radiation. The dynamic programming method is introduced in the paper and the algorithm model for ray tracing on any convex surface is developed by the method. The algorithm model is verified by tracing the rays on an infinite cylinder. It also can be applied to trace the rays on hybrid convex surfaces with inhomogeneous conductivity, and an example is given.",

author = "Li, {Wei Ming} and Li, {Xiao De} and Gao, {Ben Qing} and Liu, {Rui Xiang}",

note = "Publisher Copyright: {\textcopyright} 1999 IEEE.; 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 ; Conference date: 04-11-1999 Through 04-11-1999",

year = "1999",

doi = "10.1109/ICCEA.1999.825193",

language = "English",

isbn = "0780358023",

series = "1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "493--496",

editor = "Gao Benqing and Lu Xiaode",

booktitle = "1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings",

address = "United States",

}

Li, WM, Li, XD, Gao, BQ & Liu, RX 1999, Ray tracing on hybrid convex surfaces with applications to the geometrical theory of diffraction. in G Benqing & L Xiaode (eds), 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings., 00825193, 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings, Institute of Electrical and Electronics Engineers Inc., pp. 493-496, 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999, Beijing, China, 4/11/99. https://doi.org/10.1109/ICCEA.1999.825193

Ray tracing on hybrid convex surfaces with applications to the geometrical theory of diffraction. / Li, Wei Ming; Li, Xiao De; Gao, Ben Qing et al.
1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings. ed. / Gao Benqing; Lu Xiaode. Institute of Electrical and Electronics Engineers Inc., 1999. p. 493-496 00825193 (1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Ray tracing on hybrid convex surfaces with applications to the geometrical theory of diffraction

AU - Li, Wei Ming

AU - Li, Xiao De

AU - Gao, Ben Qing

AU - Liu, Rui Xiang

PY - 1999

Y1 - 1999

N2 - Ray tracing is the key step for the geometrical theory of diffraction to be applied in solving the problems of high-frequency electromagnetic scattering and radiation. The dynamic programming method is introduced in the paper and the algorithm model for ray tracing on any convex surface is developed by the method. The algorithm model is verified by tracing the rays on an infinite cylinder. It also can be applied to trace the rays on hybrid convex surfaces with inhomogeneous conductivity, and an example is given.

AB - Ray tracing is the key step for the geometrical theory of diffraction to be applied in solving the problems of high-frequency electromagnetic scattering and radiation. The dynamic programming method is introduced in the paper and the algorithm model for ray tracing on any convex surface is developed by the method. The algorithm model is verified by tracing the rays on an infinite cylinder. It also can be applied to trace the rays on hybrid convex surfaces with inhomogeneous conductivity, and an example is given.

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U2 - 10.1109/ICCEA.1999.825193

DO - 10.1109/ICCEA.1999.825193

M3 - Conference contribution

AN - SCOPUS:85054234634

SN - 0780358023

SN - 9780780358027

T3 - 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings

SP - 493

EP - 496

BT - 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings

A2 - Benqing, Gao

A2 - Xiaode, Lu

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999

Y2 - 4 November 1999 through 4 November 1999

ER -

Li WM, Li XD, Gao BQ, Liu RX. Ray tracing on hybrid convex surfaces with applications to the geometrical theory of diffraction. In Benqing G, Xiaode L, editors, 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings. Institute of Electrical and Electronics Engineers Inc. 1999. p. 493-496. 00825193. (1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings). doi: 10.1109/ICCEA.1999.825193

Ray tracing on hybrid convex surfaces with applications to the geometrical theory of diffraction

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