2007
Distributed dynamic load balancing in wireless networks
Publication
Publication
Presented at the
International Teletraffic Congress, Ottawa, Canada
Spatial and temporal load variations, e.g. flash overloads and traffic hot spots that persist for minutes to hours, are intrinsic features of wireless networks, and give rise to potentially huge performance repercussions. Dynamic load balancing strategies provide a natural mechanism for dealing with load fluctuations and alleviating the performance impact. In the present paper we propose a distributed shadow-price-based approach to dynamic load balancing in wireless data networks. We examine two related problem versions: (i) minimizing a convex function of the transmitter loads for given user throughput requirements; and (ii) maximizing a concave function of the user throughputs subject to constraints on the transmitter loads. As conceptual counterparts, these two formulations turn out to be amenable to a common primal-dual decomposition framework. Numerical experiments show that dynamic load balancing yields significant performance gains in terms of user throughputs and delays, even in scenarios where the long-term loads are perfectly balanced.
Additional Metadata | |
---|---|
, | |
Springer | |
Lecture Notes in Computer Science | |
International Teletraffic Congress | |
Organisation | Stochastics |
Borst, S., Saniee, I., & Whiting, P. A. (2007). Distributed dynamic load balancing in wireless networks. In Managing Traffic Performance in Converged Networks (pp. 1024–1037). Springer. |