Title page for ETD etd-05042000-16180036


Type of Document Dissertation
Author Xu, Hao
Author's Email Address haoxu@vt.edu
URN etd-05042000-16180036
Title Terrestrial radio wave propagation at millimeter-wave frequencies
Degree PhD
Department Electrical and Computer Engineering
Advisory Committee
Advisor Name Title
Rappaport, Theodore S. Committee Chair
Brown, Gary S. Committee Member
de Wolf, David A. Committee Member
Kohler, Werner E. Committee Member
Pratt, Timothy J. Committee Member
Woerner, Brian D. Committee Member
Keywords
  • BMS
  • channel measurements
  • channel models
  • LMDS
  • broadband wireless
  • 60 GHz
  • radio wave propagation
  • wireless communications
  • 38 GHz
  • millimeter-wave
  • NGI
Date of Defense 2000-04-26
Availability unrestricted
Abstract
This research focuses on radio wave propagation at millimeter-wave frequencies. A measurement based channel characterization approach is taken in the investigation.

First, measurement techniques are analyzed. Three types of measurement systems are designed, and implemented in measurement campaigns: a narrowband measurement system, a wideband measurement system based on Vector Network Analyzer, and sliding correlator systems at 5.8+AH4AXA-mbox{GHz}, 38+AH4AXA-mbox{GHz} and 60+AH4AXA-mbox{GHz}. The performances of these measurement systems are carefully compared both analytically and experimentally.

Next, radio wave propagation research is performed at 38+AH4AXA-mbox{GHz} for Local Multipoint Distribution Services (LMDS). Wideband measurements are taken on three cross-campus links at Virginia Tech. The goal is to determine weather effects on the wideband channel properties. The measurement results include multipath dispersion, short-term variation and signal attenuation under different weather conditions. A design technique is developed to estimate multipath characteristics based on antenna patterns and site-specific information.

Finally, indoor propagation channels at 60+AH4AXA-mbox{GHz} are studied for Next Generation Internet (NGI) applications. The research mainly focuses on the characterization of space-time channel structure. Multipath components are resolved both in time of arrival (TOA) and angle of arrival (AOA). Results show an excellent correlation between the propagation environments and the channel multipath structure.

The measurement results and models provide not only guidelines for wireless system design and installation, but also great insights in millimeter-wave propagation.

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