Jaunty T. Y. Ho

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This paper presents a method which allows to obtain expressions for the space-time cross correlation (STCC) and the space-frequency cross spectrum (SFCS) between signals at two receiver antennas on a mobile unit (MU) for an arbitrary scattering distribution surrounding the MU.
— We use a recently developed expression for the bivariate Rayleigh cumulative distribution function (CDF) to derive a novel analytical formula for the average signal-to-noise ratio (SNR) of the correlated dual selection combining (SC) system under slow Rayleigh fading. We relate the average SNR diversity gain to spatial correlation as well as to antenna(More)
– A new expression is given for the average signal-to-noise ratio (SNR) of a dual selection-combining receiver where the antenna signals are correlated in a Rayleigh fading multipath environment. This formula is based on a recently developed expression for the bivari-ate Rayleigh cumulative distribution function by associating the correlation parameter of(More)
We derive an infinite series expression of the average signal-to-noise ratio (SNR) gain for a dual selection combining system under Nakagamiln fading using a series representation of the bivariate cumulative probability distribution function. The average S N R gain expression is shown to relate to the Nakagami shape factor m, the power correlation and the(More)
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