The Study of Diffraction Ray Tracing on the Surface of Airplane

Li Peng Deng; Xiao Ying Zhao; You Feng Chen; Wang Jing

doi:10.4028/www.scientific.net/AMR.433-440.6345

Paper Titles

Application of MMAS and Rough Sets in Compound-Fault Diagnosis of Bearing
p.6319

Deep Space Navigation Using X-Ray Pulsars
p.6325

Design and Implementation of Hydrological Monitoring System Based on Beacon-Enabled ZigBee Network
p.6332

Measurement of Fractional Optical Vortex by a Ring-Type Multi-Pinhole Interferometer
p.6339

The Study of Diffraction Ray Tracing on the Surface of Airplane
p.6345

A Method of Choosing Important Features Used to Intrusion Detection System in Wireless Sensor Networks
p.6350

Analysis of the Coupling of Heat and Moisture of the Soil under Circulating Action of Temperature
p.6356

Distribution of the Oceanic Gas Hydrates and its Controlling Factors of Accumulation
p.6363

Prediction of Reservoir Parameters Variation Based on Time-Lapse Seismic Survey
p.6370

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 433-440The Study of Diffraction Ray Tracing on the...

The Study of Diffraction Ray Tracing on the Surface of Airplane

Abstract:

This article makes the surface of airplane into quadrilateral gridding by using the method of discrete gridding generation, and calculates the data of gridding by using the classical Dijkstra algorithm (local algorithm) which can seek the shortest path from the start point and the end point. With that we can achieve diffraction ray tracing. This method can be used for any convex surface of the diffraction ray tracing.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 433-440)

Pages:

6345-6349

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.433-440.6345

Citation:

Cite this paper

Online since:

January 2012

Authors:

Li Peng Deng, Xiao Ying Zhao, You Feng Chen, Wang Jing

Keywords:

Airplane Antenna, Antenna Coupling, Diffraction Ray Tracing, Dijkstra Algorithm

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] J.B. Keller, Diffraction by a convex cylinder. IEEE Trans. Antenna Propagat. vol. AP-24, pp.312-321, (1956).

Google Scholar

[2] R.G. Kouyoumjian and P.H. Pathak, A uniform geometrical theory of diffraction for an edge in a perfectly conducting surface, IEEE, vol. 62, pp.1448-1461, (1974).

DOI: 10.1109/proc.1974.9651

Google Scholar

[3] Qi-zhong Liu, Diffraction ray tracing in GTD, Xi'an University of Electronic Science and Technology, 1991, 18(3), pp.45-53.

Google Scholar

[4] Weihua Zong, The geometrical theory of diffraction around the ray tracing on the Cone and cylinder [J]. Xi'an University of Electronic Science and Technology, 2002, 4: P482-484.

Google Scholar

[5] Maoguang Wang, The geometrical theory of diffraction Northwest Telecommunications Engineering Institute Press, 1985. 6.

Google Scholar

[6] J.B. Keller, The Geometrical theory of diffraction, Symposium on Microwave Optics, Eaton Electronics Research Laboratory, McGill University, Montreal, Canada, June (1953).

Google Scholar

[7] Koper,E. M, Wood. Aircraft Antenna Coupling Minimization using Genetic Algorithms and Approximations[J]. IEEE Transactions on Aerospace and Elec-tronic Systems. Vol. 40, 2 April, 2004. 742-751.

DOI: 10.1109/taes.2004.1310019

Google Scholar

[8] John D. Kraus, Ronald J. Marhefka, Wenxun Zhang, Antennas: For All Applications Third Edition, Publishing House of Electronics Industry, (2004).

Google Scholar