Multi-link Integrated Communication Terminals Deploying Method for Wide Coverage of 5G Integrated Power Communications Network

Abstract

With the vigorous promotion of informatization, intelligence and ubiquity of power grid services, the flexible extension and extensive coverage of the end of power communication networks through the introduction of integrated communication terminals has become an important development direction. The deployment of integrated communication terminals affects the access range and service QoS of power service terminals. To address this issue, this paper investigates the deployment of multi-link integrated communication terminals in 5G integrated power communications network and proposes a multi-link integrated communication terminal deploying method to support the wide coverage of power 5G. Firstly, a multi-link optimization model for wide coverage 5G integrated networks containing coverage indicator, multi-service QoS indicator and cost indicator is constructed to optimize the location deployment scheme of integrated communication terminals. Based on this, an improved artificial fish swarm-based multi-link integrated communication terminal location deployment optimization algorithm is proposed to solve the high-dimensional decision space optimization problem of integrated communication terminal deployment. Simulation results show that the algorithm proposed in this thesis can rapidly find the optimal integrated communication terminal deployment location with limited cost budget, significantly improve the network coverage and service QoS indicator.