M-ary CPFSK-DPD with L-diversity maximum ratio combining in Rician fast-fading channels

Korn, I.

doi:10.1109/25.543717

Cited by 9 publications

(2 citation statements)

References 12 publications

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“…In this section, we derive the BER performance for the case of equal power in each path. From [3] and [21], the BER is Since the error probabilities of the and channel bit are the same, we evaluate only the case of the channel. By using (17) and (28), the statistical parameters of the th user for the th path given are…”

Section: A the Case Of Having The Same Power In Each Path ( And )mentioning

confidence: 99%

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Performance of coherent DS-SS/QPSK for mobile communications in fast-fading multipath and high-frequency offset

Lee

Choi

2001

IEEE Trans. Veh. Technol.

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In this paper, we derive a closed-form bit error rate (BER) solution for equal-and nonequal-strength L-path channels considering imperfect channel estimation. The channel model assumes independent paths with Rayleigh fading statistics in a single-cell downlink environment. By using a simple maximum likelihood (ML) estimator, the effects of the channel estimation error due to Doppler shift, residual carrier frequency offset, interference, and additive white Gaussian noise are analyzed. In addition, we present the tradeoff between the noise compression capability and phase tracking capability of the ML estimator with observation length as a parameter. The results indicate that even with channel estimation, the high carrier frequency offset makes an uncoded BER unacceptably high. Also, we present two kinds of modulation techniques such as EC-QPSK and NC-QPSK. Through analysis, we show the performance comparison between these modulation techniques. Finally, we verify the derived BER by using Monte Carlo computer simulation. Index Terms-Coherentdirect-sequence spread spectrum (DS-SS), equal orthogonal code quaternary phase-shift keying (EC-QPSK), maximum likelihood (ML) estimator, nonequal orthogonal code (NC)-QPSK, observation length, Rayleigh fading.

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Section: A the Case Of Having The Same Power In Each Path ( And )mentioning

confidence: 99%

“…The resultant equation [(37)] is well known in the literature [3], [21]. But in this paper, we derive the correlation function considering the imperfect channel estimation, as shown in Appendix B.…”

Section: A the Case Of Having The Same Power In Each Path ( And )mentioning

confidence: 99%

Performance of coherent DS-SS/QPSK for mobile communications in fast-fading multipath and high-frequency offset

Lee

Choi

2001

IEEE Trans. Veh. Technol.

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Bit error probability of the M‐QAM scheme under η‐μ fading and impulsive noise in a communication system using spatial diversity

Silva

Alencar

Queiroz

et al. 2019

Int J Communication

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SummaryThis paper presents a new and exact expression for the bit error probability (BEP) of the square M‐ary quadrature amplitude modulation (M‐QAM) scheme, with the channel under double gated additive white Gaussian noise (G2AWGN) and η‐μ fading in a communication system using the spatial diversity technique. The expression for the BEP is written in terms of the Appell function. The BEP curves are presented under different values of the number of branches of the maximum ratio combining (MRC) receiver, order of the constellation M, and parameters that characterize mathematically the channel, corroborated by simulations performed with Monte Carlo method.

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Estimation and equalization of multipath Rician fading channels with stochastic tap coefficients

Chen¹,

Huang²,

Chen³

1998

Signal Processing

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M-ary CPFSK-DPD with L-diversity maximum ratio combining in Rician fast-fading channels

Cited by 9 publications

References 12 publications

Performance of coherent DS-SS/QPSK for mobile communications in fast-fading multipath and high-frequency offset

Performance of coherent DS-SS/QPSK for mobile communications in fast-fading multipath and high-frequency offset

Bit error probability of the M‐QAM scheme under η‐μ fading and impulsive noise in a communication system using spatial diversity

Estimation and equalization of multipath Rician fading channels with stochastic tap coefficients

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