Energy efficient D2D communications in dynamic TDD systems
Abstract
Network-assisted device-to-device communication is a promising technology for improving the performance of proximity-based services. This paper demonstrates how the integration of device-to-device communications and dynamic time-division duplex can improve the energy efficiency of future cellular networks, leading to a greener system operation and a prolonged battery lifetime of mobile devices. We jointly optimize the mode selection, transmission period and power allocation to minimize the energy consumption (from both a system and a device perspective) while satisfying a certain rate requirement. The radio resource management problems are formulated as mixed-integer nonlinear programming problems. Although they are known to be NP-hard in general, we exploit the problem structure to design efficient algorithms that optimally solve several problem cases. For the remaining cases, a heuristic algorithm that computes near-optimal solutions while respecting practical constraints on execution times and signaling overhead is also proposed. Simulation results confirm that the combination of device-to-device and flexible time-division-duplex technologies can significantly enhance spectrum and energy-efficiency of next generation cellular systems.
Cite
@article{arxiv.1506.00412,
title = {Energy efficient D2D communications in dynamic TDD systems},
author = {Demia Della Penda and Liqun Fu and Mikael Johansson},
journal= {arXiv preprint arXiv:1506.00412},
year = {2015}
}
Comments
Submitted to IEEE Journal of Selected Areas in Communications