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The BER Performance of the LDPC-Coded MPPM over Turbulence UWOC Channels

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

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The BER Performance of the LDPC-Coded MPPM over Turbulence UWOC Channels. / Jiang, Hongyan; He, Ning; Popoola, Wasiu et al.
Yn: Photonics, Cyfrol 9, Rhif 5, 16.05.2022.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

HarvardHarvard

Jiang, H, He, N, Popoola, W & Rajbhandari, S 2022, 'The BER Performance of the LDPC-Coded MPPM over Turbulence UWOC Channels', Photonics, cyfrol. 9, rhif 5.

APA

Jiang, H., He, N., Popoola, W., & Rajbhandari, S. (2022). The BER Performance of the LDPC-Coded MPPM over Turbulence UWOC Channels. Photonics, 9(5).

CBE

Jiang H, He N, Popoola W, Rajbhandari S. 2022. The BER Performance of the LDPC-Coded MPPM over Turbulence UWOC Channels. Photonics. 9(5).

MLA

Jiang, Hongyan et al. "The BER Performance of the LDPC-Coded MPPM over Turbulence UWOC Channels". Photonics. 2022. 9(5).

VancouverVancouver

Jiang H, He N, Popoola W, Rajbhandari S. The BER Performance of the LDPC-Coded MPPM over Turbulence UWOC Channels. Photonics. 2022 Mai 16;9(5).

Author

Jiang, Hongyan ; He, Ning ; Popoola, Wasiu et al. / The BER Performance of the LDPC-Coded MPPM over Turbulence UWOC Channels. Yn: Photonics. 2022 ; Cyfrol 9, Rhif 5.

RIS

TY - JOUR

T1 - The BER Performance of the LDPC-Coded MPPM over Turbulence UWOC Channels

AU - Jiang, Hongyan

AU - He, Ning

AU - Popoola, Wasiu

AU - Rajbhandari, Sujan

PY - 2022/5/16

Y1 - 2022/5/16

N2 - Turbulence-induced fading is a critical performance degrading factor for underwater wireless optical communication (UWOC) systems. In this paper, we propose a quasi-cyclic (QC) low-density parity-check (LDPC) code with multiple-pulse-position modulation (MPPM) to overcome turbulence-induced fading. MPPM is adopted as a compromise between the low-power efficiency of on–off keying (OOK) and the low bandwidth efficiency of pulse position modulation (PPM). The bit error rate (BER) performance of LDPC-coded MPPM over turbulence UWOC channels is investigated. The log-likelihood ratio (LLR) of MPPM is derived, and a simplified approximation is used for iterative decoding. Subsequently, the closed-form expression of the BER, without forward error correction (FEC) code, is obtained for the generalized-gamma (GG) fading model. Finally, Monte-Carlo (MC) simulation results are provided to demonstrate the correctness of the derived closed-form expressions and the effectiveness of the LDPC code with simplified LLR to improve the BER performance for different MPPM formats over fading channels.

AB - Turbulence-induced fading is a critical performance degrading factor for underwater wireless optical communication (UWOC) systems. In this paper, we propose a quasi-cyclic (QC) low-density parity-check (LDPC) code with multiple-pulse-position modulation (MPPM) to overcome turbulence-induced fading. MPPM is adopted as a compromise between the low-power efficiency of on–off keying (OOK) and the low bandwidth efficiency of pulse position modulation (PPM). The bit error rate (BER) performance of LDPC-coded MPPM over turbulence UWOC channels is investigated. The log-likelihood ratio (LLR) of MPPM is derived, and a simplified approximation is used for iterative decoding. Subsequently, the closed-form expression of the BER, without forward error correction (FEC) code, is obtained for the generalized-gamma (GG) fading model. Finally, Monte-Carlo (MC) simulation results are provided to demonstrate the correctness of the derived closed-form expressions and the effectiveness of the LDPC code with simplified LLR to improve the BER performance for different MPPM formats over fading channels.

M3 - Article

VL - 9

JO - Photonics

JF - Photonics

SN - 2304-6732

IS - 5

ER -