Title :
Spatial scheduling in multiuser wireless systems: from power allocation to admission control
Author :
Bartolome, Diego ; Neira, Ana I Perez
Author_Institution :
Catalonia Telecommun. Technol. Center
Abstract :
Given a zero forcing transmit beamforming, we focus on how the multi-antenna access point distributes the scarce resource (power) among the single-antenna terminals. Since there is a clear trade-off between the satisfaction of the individual needs and the global performance of the cell, several criteria are proposed, ranging from a classical physical layer point of view of capacity (rate) maximization to bit error rate (BER)-based cost functions, which are closer to the second layer of the protocol stack. Between two traditional techniques, namely the uniform power allocation and the equal BER and rate, a new one is proposed, which ultimately provides an intermediate performance. Then, we add BER (or signal to noise ratio) constraints so that the admission control problem has to be solved. Among traditional options, we propose a new mechanism to balance the above-mentioned trade-off between the total performance and the particular user behavior. The results in terms of fairness are presented by a mean vs. variance plot and by the Gini plot
Keywords :
antenna arrays; error statistics; radiocommunication; scheduling; telecommunication congestion control; BER; admission control; bit error rate; multiantenna access point; multiuser wireless systems; power allocation; protocol stack; signal to noise ratio; single-antenna terminals; spatial scheduling; zero forcing transmit beamforming; Admission control; Array signal processing; Bit error rate; Closed-form solution; Cost function; Downlink; Physical layer; Protocols; Resource management; Signal to noise ratio;
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2006.1687723