Journal ArticleDOI
Concepts and results for 3D digital terrain-based wave propagation models: an overview
TLDR
Wave interactions, like diffraction and scattering, over the propagation path are described by the uniform theory of diffraction (UTD) and physical optics (PO) and models for rural and urban areas are presented for 2-D and 3-D ray tracing.Abstract:
Mobile communication links are severely influenced by propagation effects. Wave propagation in the VHF/UHF frequency range over natural and man-made terrain is strongly dependent on topography and morphography. Propagation modeling is based on a ray-optical approach. Wave interactions, like diffraction and scattering, over the propagation path are described by the uniform theory of diffraction (UTD) and physical optics (PO). Propagation models for rural and urban areas are presented for 2-D and 3-D ray tracing. Near-range models apply to the corresponding areas in forest and urban sites. The field-strength delay spectrum describes ray contributions with deterministic amplitudes but statistical phases are used to derive time-and frequency-domain channel characteristics. Comparisons between measured and predicted data are presented. >read more
Citations
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Journal ArticleDOI
An empirically based path loss model for wireless channels in suburban environments
V. Erceg,Lawrence Joel Greenstein,S.Y. Tjandra,S.R. Parkoff,A. Gupta,B. Kulic,A.A. Julius,R. Bianchi +7 more
TL;DR: A statistical path loss model derived from 1.9 GHz experimental data collected across the United States in 95 existing macrocells is presented, and it distinguishes between different terrain categories.
Journal ArticleDOI
A review of antennas and propagation for MIMO wireless communications
Michael A. Jensen,Jon W. Wallace +1 more
TL;DR: This paper reviews recent research findings concerning antennas and propagation in MIMO systems and considers issues considered include channel capacity computation, channel measurement and modeling approaches, and the impact of antenna element properties and array configuration on system performance.
Propagation Measurements and Models for Wireless Communications Channels To achieve ubiquitous PCS, new and novel ways of classifying wireless environments will be needed that are both widely encompassing and reasonably compact.
TL;DR: In this paper, the authors propose to use several physical media, ranging from sound to radio to light, in order to overcome the limitations of acoustical communication in wireless networks.
Journal ArticleDOI
Propagation measurements and models for wireless communications channels
TL;DR: The authors describe the type of signals that occur in various environments and the modeling of the propagation parameters, which are divided into outdoor environments, indoor environments, and radio penetration from outdoor to indoor environments.
Journal ArticleDOI
Propagation prediction models for wireless communication systems
Magdy F. Iskander,Zhengqing Yun +1 more
TL;DR: A comprehensive review of the propagation prediction models for terrestrial wireless communication systems is presented and the focus is placed on the application of ray-tracing techniques to the development of deterministic propagation models.
References
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Journal ArticleDOI
Geometrical Theory of Diffraction
TL;DR: The mathematical justification of the theory on the basis of electromagnetic theory is described, and the applicability of this theory, or a modification of it, to other branches of physics is explained.
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Empirical formula for propagation loss in land mobile radio services
TL;DR: An empirical formula for propagation loss is derived from Okumura's report in order to put his propagation prediction method to computational use.
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A uniform geometrical theory of diffraction for an edge in a perfectly conducting surface
R.G. Kouyoumjian,P.H. Pathak +1 more
TL;DR: In this article, a compact dyadic diffraction coefficient for electromagnetic waves obliquely incident on a curved edse formed by perfectly conducting curved plane surfaces is obtained, which is based on Keller's method of the canonical problem, which in this case is the perfectly conducting wedge illuminated by cylindrical, conical, and spherical waves.
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Finite conductivity uniform GTD versus knife edge diffraction in prediction of propagation path loss
TL;DR: In this paper, the authors proposed to apply wedge diffraction in the format of the geometrical theory of diffraction (GTD), modified to include finite conductivity and local surface roughness effects.