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Chance-Constrained Optimization in D2D-Based Vehicular Communication Network

Abstract: In this paper, a novel scheme is proposed to optimize the effectiveness of the device-to-device (D2D) enabled vehicular communications (D2DV), which are underlaid in cellular networks, where the uplink channel allocated to one cellular user (CU) is reused by the multiple D2D-V links. To develop a well-functioning D2D-V system, the sum rate of all D2D-V links is necessary to be maximized, and also the reliability of the co-channel CU to infrastructure has to be guaranteed with the CU interference constraint. Unlike the traditional statical D2D systems, the D2D-V system suffers with high mobility and channel uncertainty. Therefore, the CU interference constraint is formulated as a probabilistic function by the Bernstein approximation, the constraint attempts to address the mobile channel fluctuations. Besides, the tractable approximate constraint is reformulated as two separable structure, this reformulated constraint attempts to determine the near-optimal solutions more efficiently. Since the objective function with a logarithmic form is nonconvex, successive convex approximation is applied to transform the


nonconvex problem into the convex problem. The dual decomposition is used to determine the near-optimal solutions. After the problem is reformulated, a distributed robust power control algorithm is proposed to perform the chance-constrained optimization. Numerical simulations are used to evaluate the performance of the proposed scheme. The simulation results show the impacts of system performance when applying the proposed scheme in vehicular environments with high mobility. The proposed optimization schemes are further verified by comparing with the existing methods.

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Chance-Constrained Optimization in D2D-Based Vehicular Communication Network  

Chance-Constrained Optimization in D2D-Based Vehicular Communication Network IEEE PROJECTS 2019-2020 TITLE LIST Call Us: +91-7806844441,8144...

Chance-Constrained Optimization in D2D-Based Vehicular Communication Network  

Chance-Constrained Optimization in D2D-Based Vehicular Communication Network IEEE PROJECTS 2019-2020 TITLE LIST Call Us: +91-7806844441,8144...

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