Jianxia Luo

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—The bit error rate (BER) performance of a two-dimensional (2-D) RAKE receiver, in combination with transmit diversity on the downlink of a wide-band CDMA (W-CDMA) system, is presented. The analyses assume correlated fading between receive antenna array elements, and an arbitrary number of independent but nonidentical resolvable multipaths combined by the(More)
In this paper, we have analyzed the convolutional coded error performance of a 2D-RAKE receiver, in combination with transmit diversity on the downlink of a WCDMA system. The analyses assume correlated fading between receive antenna array elements, and an arbitrary number of independent but nonidentical resolvable multipaths combined by the RAKE receiver in(More)
This paper presents the average error probability performance of a compact space diversity receiver for the reception of binary coherent and non-coherent modulation signals through a correlated Nakagami fading channel. Analytical expressions of the average BER are derived as a function of the covariance matrix of the multipath component signals at the(More)
—This paper provides a framework for error rate performance analysis of maximal ratio combining multichannel reception of coherent-ary phase-shift keying (MPSK) systems over slowly fading channels. Each channel is described by a two-sided discrete model with correlated complex Gaussian taps based on bandlimiting an underlying WSSUS physical channel. The(More)
—This paper provides a framework for the analysis of error rate performance of maximal ratio combining multichannel reception of coherent linearly modulated systems over frequency-selective fading channels. Expressions for the error probability are developed, and the special cases for which closed-form or acceptable efficient numerical solutions are(More)
This paper presents the average error probability performance in coherent DS-CDMA systems using a 2D-RAKE receiver with an arbitrary number of antennas and arbitrary number of RAKE fingers. In the analysis, we assume a general frequency selective Nakagami-m fading channel with exponential Multipath Intensity Profile. Analytical expression of the average(More)
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