Fast prediction of scattering in mountainous terrain using commonly visible surfaces

Authors:
Alexander H. Xiao;Henry L. Bertoni;Chrysanthos Chrysanthou;Jeffrey Boksiner
Affiliations:
Wireless Internet Center for Advanced Technology, Polytechnic Institute of New York University, Brooklyn, NY;Wireless Internet Center for Advanced Technology, Polytechnic Institute of New York University, Brooklyn, NY;Communications-Electronics Research, Development, and Engineering Center, US Army, Fort Monmouth, NJ;Communications-Electronics Research, Development, and Engineering Center, US Army, Fort Monmouth, NJ
Venue:
Sarnoff'10 Proceedings of the 33rd IEEE conference on Sarnoff
Year:
2010

Citing 4
Cited 0

Radio Propagation for Modern Wireless Systems

Radio Propagation for Modern Wireless Systems
Guided visibility sampling

ACM SIGGRAPH 2006 Papers
Computing visibility on terrains in external memory

Journal of Experimental Algorithmics (JEA)
Adaptive global visibility sampling

ACM SIGGRAPH 2009 papers

Quantified Score

Hi-index	0.01

Visualization

Abstract

This paper discusses a computer program for deterministic prediction of radio wave scattering in hilly and mountainous terrain using a DTED terrain database. A fast and accurate visibility algorithm with a linear computational complexity and little RAM requirement is invented to find the terrain elements that are commonly visible to both ends of the communication links. Comparing with the vertical plane contribution predicted by the TIREM model, we find that in about 1/3 of the cases the terrain scattering contribution is more significant than the vertical plane contribution in a typical mountainous terrain. We also find milliseconds computation times per link can be achieved on a personal computer for large maps by pre-computing macro-visibility. Computation that finds visibility on-the-fly takes 6 times longer.