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Jamming-Aware Traffic Allocation for Multiple-Path Routing Using Portfolio Selection


Affiliations
1 Information Technology from St. Ann's College of Engineering and Technology, Chirala, India
2 Computer Science & Engineering from Siddhartha Engineering College, India
3 Electronics and Communications Engineering from University of Madras, Chennai, India
     

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Multiple-path source routing protocols allow a data source node to distribute the total traffic among available paths. In this article, we consider the problem of jamming-aware source routing in which the source node performs traffic allocation based on empirical jamming statistics at individual network nodes. We formulate this traffic allocation as a lossy network flown optimization problem using portfolio selection theory from financial statistics. We show that in multi-source networks, this centralized optimization problem can be solved using a distributed algorithm based on decomposition in network utility maximization (NUM). We demonstrate the network's ability to estimate the impact of jamming and incorporate these estimates into the traffic allocation problem. Finally, we simulate the achievable throughput using our proposed traffic allocation method in several scenarios.

Keywords

Jamming, Multiple Path Routing, Portfolio Selection Theory, Optimization, Network Utility Maximization.
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  • Jamming-Aware Traffic Allocation for Multiple-Path Routing Using Portfolio Selection

Abstract Views: 247  |  PDF Views: 1

Authors

Nagalatha Yannam
Information Technology from St. Ann's College of Engineering and Technology, Chirala, India
S. Anil Kumar
Computer Science & Engineering from Siddhartha Engineering College, India
P. Harini
Electronics and Communications Engineering from University of Madras, Chennai, India

Abstract


Multiple-path source routing protocols allow a data source node to distribute the total traffic among available paths. In this article, we consider the problem of jamming-aware source routing in which the source node performs traffic allocation based on empirical jamming statistics at individual network nodes. We formulate this traffic allocation as a lossy network flown optimization problem using portfolio selection theory from financial statistics. We show that in multi-source networks, this centralized optimization problem can be solved using a distributed algorithm based on decomposition in network utility maximization (NUM). We demonstrate the network's ability to estimate the impact of jamming and incorporate these estimates into the traffic allocation problem. Finally, we simulate the achievable throughput using our proposed traffic allocation method in several scenarios.

Keywords


Jamming, Multiple Path Routing, Portfolio Selection Theory, Optimization, Network Utility Maximization.