Title :
Robust Smart-Grid-Powered Cooperative Multipoint Systems
Author :
Xin Wang ; Yu Zhang ; Giannakis, Georgios B. ; Shuyan Hu
Author_Institution :
Dept. of Commun. Sci. & Eng., Fudan Univ., Shanghai, China
Abstract :
A framework is introduced to integrate renewable energy sources (RES) and dynamic pricing capabilities of the smart grid into beamforming designs for coordinated multipoint (CoMP) downlink communication systems. To this end, novel models are put forth to account for harvesting, storage of nondispatchable RES, time-varying energy pricing, and stochastic wireless channels. Building on these models, robust energy management and transmit-beamforming designs are developed to minimize the worst-case energy cost subject to the worst-case user QoS guarantees for the CoMP downlink. Leveraging pertinent tools, this task is formulated as a convex problem. A Lagrange dual-based subgradient iteration is then employed to find the desired optimal energy-management strategy and transmit-beamforming vectors. Numerical results are provided to demonstrate the merits of the proposed robust designs.
Keywords :
energy management systems; optimisation; pricing; renewable energy sources; smart power grids; CoMP downlink communication systems; Lagrange dual-based subgradient iteration; beamforming designs; convex problem; coordinated multipoint downlink communication systems; dynamic pricing capabilities; energy-management strategy; nondispatchable RES; renewable energy sources; robust designs; robust energy management; smart-grid-powered cooperative multipoint systems; stochastic wireless channels; time-varying energy pricing; transmit-beamforming designs; transmit-beamforming vectors; worst-case user QoS guarantees; Array signal processing; Batteries; Interference; Robustness; Smart grids; Uncertainty; Wireless communication; CoMP systems; Smart grid; downlink beamforming; renewable energy; robust optimization;
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2015.2449843
