Distributed fair resource allocation in cellular networks in the presence of heterogeneous delays

We consider the problem of allocating resources at a base station to many competing flows, where each flow is intended for a different receiver The channel conditions may be time-varying and different for different receivers. It has been shown in [6] that in a delay-free network, a combination of queue-length-based scheduling at the base station and congestion control at the end users can guarantee queue-length stability and fair resource allocation. In this paper, we extend this result to wireless networks where the congestion information from the base station is received with a feedback delay at the transmitters. The delays can be heterogenous (i.e., different users may have different round trip delays) and time-varying, but are assumed to be upper-bounded, with possibly very large upper bounds. We will show that the joint congestion control-scheduling algorithm continues to, be stable and continues to provide a fair allocation of the network resources.