A Transport Theory of Millimeter Wave Propagation in Woods and Forests
Abstract
A theory of mm wave propagation in woods and forests is presented which models the vegetation environment as a statistically homogeneous random medium of scatterers characterized by a scatter function (phase function) with a narrow forward lobe and an omnidirectional background. The model describes the medium in terms of four overall theoretical parameters whose numerical values can be determined in principle by comparison of analytical results and experimental data. The scalar transport theory is used to determine the coherent and incoherent field intensities in the forest medium; the problem solved is that of a vegetation halfspace illuminated by a plane wave. Formulas and graphs are presented on the range dependence of the coherent and incoherent intensities, and on the angular spectrum (beam broadening) of the incoherent intensity. Comparison with experimental results obtained by an independent investigation has shown good qualitative agreement of calculated and measured results. Originator-supplied keywords include: Millimeter wave propagation, RF propagation in woods/forests, terrain effects on millimeter wave transmission, Transport theory, Random media, Coherent and incoherent field components, and Range dependence and beambroadening of millimeter waves in vegetation.
Document Details
- Document Type
- Technical Report
- Publication Date
- Feb 01, 1985
- Accession Number
- ADA151883
Entities
People
- F. Schwering
- R. A. Johnson
Organizations
- United States Army Communications-Electronics Command