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INFOCOM
2006
IEEE

Super-Fast Delay Tradeoffs for Utility Optimal Fair Scheduling in Wireless Networks

14 years 6 months ago
Super-Fast Delay Tradeoffs for Utility Optimal Fair Scheduling in Wireless Networks
— We consider the fundamental delay tradeoffs for utility optimal scheduling in a general network with time varying channels. A network controller acts on randomly arriving data and makes flow control, routing, and resource allocation decisions to maximize a fairness metric based on a concave utility function of network throughput. A simple set of algorithms are constructed that yield total utility within O(1/V ) of the utilityoptimal operating point, for any control parameter V > 0, with a corresponding end-to-end network delay that grows only logarithmically in V . This is the first algorithm to achieve such “super-fast” performance. Furthermore, we show that this is the best utility-delay tradeoff possible. This work demonstrates that the problem of maximizing throughput utility in a data network is fundamentally different than related problems of minimizing average power expenditure, as these latter problems cannot achieve such performance tradeoffs.
Michael J. Neely
Added 11 Jun 2010
Updated 11 Jun 2010
Type Conference
Year 2006
Where INFOCOM
Authors Michael J. Neely
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