Performance analysis of coherent wireless optical communications with atmospheric turbulence

Niu, Mingbo; Song, Xuegui; Cheng, Julian; Holzman, Jonathan F.

doi:10.1364/oe.20.006515

Cited by 50 publications

(25 citation statements)

References 10 publications

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“…The detailed parameters of the value are shown in Table 1. As with previous studies on the operation principle of coherent detection technology [23], the power of LO is assumed to be sufficiently high compared to the received signal power, P LO P R , where P R is characterized by the received optical power. The shot noise can then be calculated as σ 2 shot ≈ 2q P LO B 0 in later calculation.…”

Section: System Error Probability Analysismentioning

confidence: 99%

Performance Analysis of Heterodyne-Detected OCDMA Systems Using PolSK Modulation over a Free-Space Optical Turbulence Channel

Bai

Sato

2015

Electronics

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This paper presents a novel model of heterodyne-detected optical code-division multiple-access (OCDMA) systems employing polarization shift keying (PolSK) modulation over a free-space optical (FSO) turbulence channel. In this article, a new transceiver configuration and detailed analytical model for the proposed system are provided and discussed, taking into consideration the potential of heterodyne detection on mitigating the impact of turbulence-induced irradiance fluctuation on the performance of the proposed system under the gamma-gamma turbulence channel. Furthermore, we derived the closed-form expressions for the system error probability and outage probability, respectively. We determine the advantages of the proposed modeling by performing a comparison with a direct detection scheme obtained from an evaluation of link performance under the same environment conditions. The presented work also shows the most significant impact factor that degrades the performance of the proposed system and indicates that the proposed approach offers an optimum link performance compared to conventional cases.

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Section: System Error Probability Analysismentioning

confidence: 99%

Performance Analysis of Heterodyne-Detected OCDMA Systems Using PolSK Modulation over a Free-Space Optical Turbulence Channel

Bai

Sato

2015

Electronics

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“…In (39), Ã denotes the convolution operator, and a ½x p ð; Þ denotes the convolution of a p ð; Þ with itself x À 1 times, e.g., a ½2 p ð; Þ ¼ a p ð; Þ Ã a p ð; Þ. Specifically, we have a ½0 p ð; Þ ¼ 1 and a ½1 p ð; Þ ¼ a p ð; Þ.…”

Section: Atmospheric Turbulence Model and Its Statisticsmentioning

confidence: 99%

Alamouti-Type STBC for Atmospheric Optical Communication Using Coherent Detection

2014

Self Cite

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Alamouti-type space-time block coding is studied for optical wireless communication systems using coherent detection over atmospheric turbulence channels. Atmospheric turbulence-induced fading and phase noise are known to impair the performance of coherent optical wireless systems. Two new Alamouti-type space-time coded architectures are proposed to overcome turbulence-induced fading and phase noise from transmitter lasers, receiver local oscillators, and turbulence channels. Their error rate performance is analyzed for a wide range of turbulence conditions. With developed analytical error rate expressions, the usefulness of the proposed Alamouti-type space-time block coding is demonstrated for coherent optical wireless communication systems. Numerical results confirm the performance improvements of the proposed systems over that of single-input-single-output systems.

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“…The subcarrier signal at the output of the electrical modulator can be written as (1) where denotes the real part of a complex-valued quantity, is the carrier frequency of the subcarrier signal, , and is a generic low-pass equivalent signal having the form of (2) where is the amplitude. For differentially coherent phase-shift keying, the phase , where is the modulation order, will convey the transmitted information and is set to be 0.…”

Section: A System Modelmentioning

confidence: 99%

“…On-off keying (OOK) with irradiance modulation and direct detection (IM/DD) is commonly used because it is simple to implement, although its performance is worse than other types of OWC systems. On the other hand, spatially coherent OWC systems using phase-shift keying (PSK) with phase compensation can offer excellent background noise rejection capability and high receiver sensitivity at the cost of much higher complexity (refer to [1], [2], and the references therein). Coherent optical polarization modulated system is another option which can provide improved link performance with increased system complexity.…”

Section: Introductionmentioning

confidence: 99%

Subcarrier Intensity Modulated Optical Wireless Communications Using Noncoherent and Differentially Coherent Modulations

Song

Cheng

2013

J. Lightwave Technol.

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Error rate performance is analyzed for subcarrier noncoherent and differentially coherent modulated optical wireless communication systems over atmospheric turbulence channels. Both Gamma-Gamma and negative exponential channels are considered. Using a moment generating function approach, we obtain a unified bit-error rate expression for a family of noncoherent and differentially coherent modulations. We also analyze the symbol-error rate performance of subcarrier -ary differential phase-shift keying and -ary noncoherent frequency-shift keying modulated systems using the same frequency domain approach. Our asymptotic analysis reveals relative error rate performance of -ary differential phase-shift keying and -ary noncoherent frequency-shift keying in different channel conditions.

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Performance analysis of coherent wireless optical communications with atmospheric turbulence

Cited by 50 publications

References 10 publications

Performance Analysis of Heterodyne-Detected OCDMA Systems Using PolSK Modulation over a Free-Space Optical Turbulence Channel

Performance Analysis of Heterodyne-Detected OCDMA Systems Using PolSK Modulation over a Free-Space Optical Turbulence Channel

Alamouti-Type STBC for Atmospheric Optical Communication Using Coherent Detection

Subcarrier Intensity Modulated Optical Wireless Communications Using Noncoherent and Differentially Coherent Modulations

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