Paper Info
Title
Implementation Of Reflection On Curved Surfaces And Physical Optics In Ray Tracing For Tunnel Propagation
Abstract
For the modeling of multipath propagation in every wireless systems, the ray tracing method has been widely studied. However, large errors may result due to the approximation of geometrical optics in curved surfaces. This paper therefore focused on the curved surfaces and edges, which are difficult to handle in ray tracing. Examples of curved surfaces can be found in arched cross-section tunnels which are common in highway networks of mountainous areas. The traditional ray tracing method of dividing the curved surface into smaller flat plates is not so accurate as the size of smaller plates may not satisfy the geometrical optics assumption, and the reflection point which satisfies Fermat's principle may not exist. In this work, a new ray tracing method is proposed with 2 contributions. The first one is the implementation of the reflection coefficient for curved surfaces in ray tracing. The second is applying the physical optics method on the caustics region. To evaluate these methods, path gain simulation results for an arched cross-section model are compared with measurements made inside an arched tunnel. To further improve the simulation results, the effect of rough surface is introduced, and the results are again compared with measurement.
Year
DOI
Venue
2013
10.1587/transele.E96.C.42
IEICE TRANSACTIONS ON ELECTRONICS
Keywords
Field
DocType
ray tracing, physical optics, rough surfaces, curved reflection, tunnel propagation, caustics
Ray tracing (graphics),Caustic (optics),Optics,Beam tracing,Geometrical optics,Engineering,Physical optics
Journal
Volume
Issue
ISSN
E96C
1
1745-1353
Citations 
PageRank 
References 
0
0.34
3
Authors
7
Name
Order
Citations
PageRank
Yukiko Sanoh121.40
Jun-ichi Takada223747.62
Gilbert Siy Ching331.35
Hajime Takao400.34
Yoshihiro Sugihara500.34
Shigeaki Matsunaga600.34
Fumiya Uesaka700.34