Aiming at the problem of limited energy stored in unmanned aerial vehicle (UAV), a resource allocation strategy for UAV-assisted edge computing in wireless powered communication networks is investigated in this paper. By deploying a laser beam director on the ground, sufficient energy can be provided for the UAV in a short period of time. Then, multiple ground terminals obtain energy from this UAV by radio frequency energy harvesting method and offload their computational tasks to the UAV with edge server. The resource allocation problem is modeled as an optimization problem. The optimization objective is to minimize the total energy consumption of the UAV subject to the constraints of energy and data causality, computational resources, and transmitting power. The suboptimal solution is obtained by introducing an imperialist competitive algorithm. Simulation results show that the imperialist competitive algorithm consumes less energy compared with the particle swarm optimization algorithm and the equal upload time allocation method.


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    Title :

    Resource Allocation Strategy for Wireless Powered Communication Networks with UAV-Assisted Edge Computing


    Contributors:
    Zhang, Xinyu (author) / Zhao, Yisheng (author) / You, Hongyi (author) / Jian, Kaige (author) / Liang, Li (author)


    Publication date :

    2024-06-24


    Size :

    420948 byte





    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English




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