Abstract
Balancing between fairness and throughput remains a challenging problem in the design of future wireless networks. This paper addresses this challenge and proposes a practical power optimization method, which has the potential of balancing between fairness and data throughput. The paper assumes a non-line of sight (NLOS) wireless backhaul network, especially introduced to serve areas with dense data traffic. The network comprises several transmitters, known as access-nodes (AN), each serving several remote terminals (RT) via wireless links. To reach a feasible, yet a simple, proportional fairness solution, this paper maximizes an approximated network-wide utility function, where the individual terms are based on long-term channel gains, utilized to compute the geometry carrier to interference and noise ratio (CINR). The paper then solves the power optimization problem by introducing a scalar bias to balance fairness with throughput. Through Monte Carlo simulations, performance improvement of the proposed method is illustrated and compared against existing classical methods.
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