P. Petrus scite author profile

In this paper, we develop a statistical geometric propagation model for a macrocell mobile environment that provides the statistics of angle-of-arrival (AOA) of the multipath components, which are required to test adaptive array algorithms for cellular applications. This channel model assumes that each multipath component of the propagating signal undergoes only one bounce traveling from the transmitter to the receiver and that scattering objects are located uniformly within a circle around the mobile. This geometrically based single bounce macrocell (GBSBM) channel model provides three important parameters that characterize a channel: the power of the multipath components, the time-of-arrival (TOA) of the components, and the AOA of the components. Using the GBSBM model, we analyze the effect of directional antennas at the base station on the fading envelopes. The level crossing rate of the fading envelope is reduced and the envelope correlation increases significantly if a directional antenna is employed at the base station.

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Robust Huber adaptive filter

Petrus¹

1999

IEEE Trans. Signal Process.

126

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Geometrically based statistical channel model for macrocellular mobile environments

Petrus

Reed

Rappaport

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Capacity enhancement using adaptive arrays in an AMPS system

Petrus

Ertel

Reed

1998

IEEE Trans. Veh. Technol.

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P. Petrus

Geometrical-based statistical macrocell channel model for mobile environments

Robust Huber adaptive filter

Geometrically based statistical channel model for macrocellular mobile environments

Capacity enhancement using adaptive arrays in an AMPS system

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