On generating all maximal independent sets
Information Processing Letters
Impact of interference on multi-hop wireless network performance
Proceedings of the 9th annual international conference on Mobile computing and networking
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Proceedings of the 11th annual international conference on Mobile computing and networking
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MobiShare '06 Proceedings of the 1st international workshop on Decentralized resource sharing in mobile computing and networking
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IEEE/ACM Transactions on Networking (TON)
Capacity regions for multiple unicast flows using inter-session network coding
WICON '07 Proceedings of the 3rd international conference on Wireless internet
Bounds on network coding and multi-rate diversity gain in multicast wireless applications
ISWCS'09 Proceedings of the 6th international conference on Symposium on Wireless Communication Systems
On distributed scheduling in wireless networks exploiting broadcast and network coding
IEEE Transactions on Communications
Performance of network coding in ad hoc networks
MILCOM'06 Proceedings of the 2006 IEEE conference on Military communications
Codecast: a network-coding-based ad hoc multicast protocol
IEEE Wireless Communications
IEEE Transactions on Information Theory
IEEE Transactions on Information Theory
Low-Latency Broadcast in Multirate Wireless Mesh Networks
IEEE Journal on Selected Areas in Communications
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This paper investigates the interaction between network coding and link-layer transmission rate diversity in multi-hop wireless networks. By appropriately mixing data packets at intermediate nodes, network coding allows a single multicast flow to achieve higher throughput to a set of receivers. Broadcast applications can also exploit link-layer rate diversity, whereby individual nodes can transmit at faster rates at the expense of corresponding smaller coverage area. We first demonstrate how combining rate-diversity with network coding can provide a larger capacity for data dissemination of a single multicast flow, and how consideration of rate diversity is critical for maximizing system throughput. Next we address the following question: given a specific topology of wireless nodes, what is the maximum rate that can be supported by the resultant network exploiting both network coding and multi-rate? We present a linear programming model to compute the maximal throughput that a multicast application can achieve with network coding in a rate-diverse wireless network. We also present analytical results where we observe noticeably better throughput than traditional routing. This suggests there is opportunity for achieving higher throughput by combining network coding and multi-rate diversity.