Provided by: Cornell University
Date Added: Jan 2013
In this paper, the authors study the scheduling problem for downlink transmission in a multi-channel (e.g., OFDM-based) wireless network. They focus on a single cell, with the aim of developing a unifying framework for designing low-complexity scheduling policies that can provide optimal performance in terms of both throughput and delay. They develop new easy-to-verify sufficient conditions for rate-function delay optimality (in the many-channel many-user asymptotic regime) and throughput optimality, respectively. The sufficient conditions allow users to prove rate-function delay optimality for a class of Oldest Packets First (OPF) policies and throughput optimality for a large class of Maximum Weight in the Fluid limit (MWF) policies, respectively.