TY  - JOUR
T1  - Bit-error probability for optimum combining of binary signals in the presence of interference and noise.
JF  - IEEE Transactions on wireless communications
A1  - Mallik, R.K
LA  - English
UL  - https://tuklas.up.edu.ph/Record/UP-99796217609638320
AB  - We derive an exact bit-error probability (BEP) expression for coherent detection of binary signals with optimum combining in wireless systems in the presence of multiple cochannel interferers and thermal noise. A flat Rayleigh fading environment with space diversity, uncorrelated equal-power interferers, and additive white Gaussian noise is considered. The approach is to use the chain rule of conditional expectation together with the joint probability density function (pdf) of the eigenvalues of the interference correlation matrix. This joint pdf is related to the Vandermonde determinant. Let NA denote the number of antennas and NI the number of interferers. We consider both the cases of an overloaded system, in which NI≥NA, and an underloaded system, in which NIA. Using averaging techniques that make use of the properties of the Vandermonde determinant, we obtain in each of the two cases a closed-form BEP expression as a finite sum, and the only special function that this expression contains is the Gaussian Q-function. This makes it a powerful tool for analysis and computation.
KW  - Vandermonde determinant.
KW  - Wishart distribution.
KW  - Adaptive arrays.
KW  - Additive white Gaussian noise.
KW  - Antenna diversity.
KW  - Binary signal detection.
KW  - Bit error probability.
KW  - Cochannel interference.
KW  - Eigenvalues.
KW  - Flat Rayleigh fading.
KW  - Interference correlation matrix.
KW  - Joint probability density function.
KW  - Optimum combining.
KW  - Space diversity.
KW  - Thermal noise.
KW  - Wireless system.
ER  -