Power-aware wireless virtualized resource allocation with D2D communication underlaying LTE network

To meet the increasing mobile data services de- mand, several solutions have been proposed such as wireless resource virtualization and device-to-device (D2D) communication. Virtualization allows for more efficient utilization of the spectrum, reduces expenditures, and can support higher peak rates. D2D communication can achieve higher data rates due to the proximity of devices while controlling the interference it causes to cellular communication. However, the increase in data rate multimedia demand has led to an increase in global energy consumption. Thus, it is crucial to employ more energy- aware schemes as this would provide both environmental and financial gains for service providers. In this paper, we extend our work in [1] by formulating the problem of power-aware wireless resource virtualization with D2D communication underlaying the LTE network. Since the problem is a mixed integer non-linear programming problem (MINLP), it is divided into four smaller linear programs, each of which is solved to optimality. Two lower complexity heuristic algorithms to solve the power allocation problems are introduced. Results show significant savings at both eNodeB and D2D devices.