Mingwu Yao
Xidian University
11 Papers
Mingwu Yao is an academic researcher from Xidian University. The author has contributed to research in topics: Computer science & Turbulence. The author has an hindex of 4, co-authored 5 publications.
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Papers
Free-space communications over exponentiated Weibull turbulence channels with nonzero boresight pointing errors.
Xiang Yi,Mingwu Yao +1 more
TL;DR: Analytical expressions for the performance of urban free-space optical communication systems under the combined influence of atmospheric turbulence- and misalignment-induced fading (pointing errors) and a novel expression for the composite PDF in terms of a convergent double series involving a Meijer's G-function are presented.
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MIMO FSO communication using subcarrier intensity modulation over double generalized gamma fading
TL;DR: The numerical results, verified by simulation, confirm that RC outperforms OSTBC for MIMO FSO systems with subcarrier intensity modulation in double GG fading.
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Evolution properties of Bessel-Gaussian Schell-model beams in non-Kolmogorov turbulence.
TL;DR: The analytical expressions for the spectral degree of coherence, the effective radius of curvature and the propagation factor of the Bessel-Gaussian Schell-model (BGSM) beam in turbulent atmosphere are derived based on the extended Huygens-Fresnel principle and the second-order moments of the WDF.
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Delay Analysis of Mobile Edge Computing Using Poisson Cluster Process Modeling: A Stochastic Network Calculus Perspective
TL;DR: Analysis and optimization of the overall delay bound for MEC networks under two orthogonal frequency division multiple access (OFDMA) strategies via stochastic network calculus (SNC) using Poisson cluster process to capture the randomness of MEC servers’ and users’ spatial locations.
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Spreading and evolution behavior of coherent vortices of multi-Gaussian Schell-model vortex beams propagating through non-Kolmogorov turbulence
TL;DR: In this paper, the beam width and angular spread of MGSMV beams propagating through atmospheric turbulence are derived, and the spreading and evolution behavior of coherent vortices are investigated quantitatively by some typical numerical examples.
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