Prediction of Wireless Communication Systems Performance in Indoor Applications

Abstract

Due to a shift in the interest in wireless applications, from outdoor to indoor environments. new modelling solutions had to be designed to account for the immense complexity of the latter. Essentially, two categories of indoor propagation models prevailed until the mid-9O's: the Empirical and the Physical models. They both predicted important characteristics of a given confined environment like the coverage area, transmitted power requirements. number and location of base stations or access points. The implementation of wireless communications systems onboard naval assets is expected to offer numerous advantages and enhance the existing shipboard communications systems. That, in turn, calls for a reliable and cost-effective means of estimating the expected link budget in such environments, especially when the infrastructure in question is yet to be built, as is the case in a ship class under development. This thesis treats the problem of indoor propagation modeling using the Numerical Electromagnetic Code-Basic Scattering Code (NEC-BSC) and compares the predicted results obtained by this code with actual measurements performed inside a building at the Naval Postgraduate School. A number of important conclusions regarding the validity of NEC-BSC for indoor applications are being reached and some intriguing statistical results are being presented.

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 2000

Accession Number

ADA385969

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