Abstract

We consider a cloud-based heterogeneous network of base stations (BSs) connected via a backhaul network of routers and wired/wireless links with limited capacity. The optimal provision of such networks requires proper resource allocation across the radio access links in conjunction with appropriate traffic engineering within the backhaul network. In this paper, we propose an efficient algorithm for joint resource allocation across the wireless links and flow control over the entire network. The proposed algorithm, which maximizes the min-rate among all the transmitted commodities, is based on a decomposition approach that leverages both the alternating direction method of multipliers (ADMM) and the weighted-MMSE (WMMSE) algorithm. We show that this algorithm is easily parallelizable and converges globally to a stationary solution of the joint optimization problem. The proposed algorithm can also be extended to networks with multi-antenna nodes and other utility functions.

Keywords

Computer scienceBackhaul (telecommunications)Computer networkRadio access networkSoftware-defined networkingWireless networkBase stationCloud computingAccess networkWirelessDistributed computingTelecommunications

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Publication Info

Year
2014
Type
article
Volume
32
Issue
6
Pages
1282-1294
Citations
64
Access
Closed

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Cite This

Wei-Cheng Liao, Mingyi Hong, Hamid Farmanbar et al. (2014). Min Flow Rate Maximization for Software Defined Radio Access Networks. IEEE Journal on Selected Areas in Communications , 32 (6) , 1282-1294. https://doi.org/10.1109/jsac.2014.2328171

Identifiers

DOI
10.1109/jsac.2014.2328171
arXiv
1312.5345

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