Title :
Flow-level modeling of multi-user beamforming in mobile networks
Author :
Khlass, Ahlem ; Bonald, Thomas ; Elayoubi, Salah Eddine
Author_Institution :
Orange Labs. & Telecom ParisTech, Orange, France
Abstract :
Among the several features that are foreseen for increasing the capacity of cellular systems, Multi-user multiple-input multiple-output (MU-MIMO) is considered as a key enabling technology. Particularly, MU-beamforming is a powerful means of increasing the system capacity and throughput by creating several spatial signals to different users on the same time/frequency resource. In this paper, we develop an analytical model for MU-beamforming based on queuing theory combined with network simulations. The proposed framework is used for evaluating the potential gains in terms of capacity and throughput in LTE-Advanced system. Several scenarios are studied, with and without beamforming. Results show an important gain of SU-beamforming over the classical system without beamforming and a further gain of MU-beamforming, especially at high loads.
Keywords :
Long Term Evolution; MIMO communication; array signal processing; cellular radio; frequency allocation; queueing theory; LTE-Advanced system; MU-MIMO; analytical model; cellular systems; flow-level modeling; frequency resource; mobile networks; multiuser beamforming; multiuser multiple-input multiple-output system; network simulations; queuing theory; spatial signals; time resource; Array signal processing; Conferences; Interference; Load modeling; MIMO; Throughput; Wireless networks; Flow Level Modeling; LTE-Advanced; Multi-user beamforming; Queuing Theory; Simulations;
Conference_Titel :
Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks (WiOpt), 2014 12th International Symposium on
Conference_Location :
Hammamet
DOI :
10.1109/WIOPT.2014.6850281
