The algorithm takes into account network throughput and coverage to achieve BS-Relay Station deployment. From the perspective of energy and the environment, the power that a BS consumes is proportional to the maximum region that the BS can serve . Cost minimization is an issue that needs to be considered in BS construction.
5. Conclusions In this paper, an adaptive beamforming scheme was proposed to mitigate interference from the 5G base station to the radio altimeter. Compared to the conventional beamformer with fixed weights, the proposed beamformer adaptively changes the weights according to dynamic environment.
This model can comprehensively consider various constraints according to the relevant data of the existing network BSs and weak coverage points in a certain area, meet the needs of users to the greatest extent and redeploy the BSs to achieve the minimum construction cost and the minimum number of overlapping coverage points.
The decision variables to be certain contain the total amount of newly-built macro BSs, the total number of micro BSs, the coordinates of the newly-built macro and micro BSs, and the amount of weak coverage points covered by each newly-built macro and micro BS. To sum up, the optimal site selection model of the existing network BS is as follows:
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