Patwari, Neal2014-03-142014-03-141999-04-29etd-050499-150855http://hdl.handle.net/10919/32201In an extensive outdoor propagation study, low antenna heights of 1.7 m are used at both the transmitter and the receiver to measure over 3500 wideband power-delay profiles (PDPs) of the channel for a peer-to-peer communications system. Rural and urban areas are studied in 22 different transmitter-receiver links. The results are used to characterize the narrowband path loss, mean delay, root-mean-square (RMS) delay spread, and timing jitter of the peer-to-peer wideband channel. Small-scale fading characteristics are measured in detail by measuring and analyzing 160 PDPs within each local area. This thesis shows the measurement setup for the calculation of fading rate variance and angular spread and reports the first known attempt to calculate angular spread from track power measurements. New analysis presented in this thesis shows the effect of measurement error in the calculation of angular spread. The expected characteristics of angular spread are derived using two different angle-of-arrival (AOA) models from the literature. Measurement results show initial validation of Durgin's angular spread theory. A new measurement-based algorithm for simulating wideband fading processes is developed and implemented. This simulation technique shows promise in the simulation of high-bit rate peer-to-peer radio communication systems.In Copyrightpeer-to-peer1.8 GHz2 GHzpropagation measurementschannel modelsradio wave propagationsliding correlator measurement systemangular spreadlow antennarake receiversmobile and portable radiowidebandMeasured and Modeled Time and Angle Dispersion Characteristics of the 1.8 GHz Peer-to-Peer Radio ChannelThesishttp://scholar.lib.vt.edu/theses/available/etd-050499-150855/