End-to-end performance and fairness in multihop wireless backhaul networks
Proceedings of the 10th annual international conference on Mobile computing and networking
End-to-End Fair Bandwidth Allocation in Multi-Hop Wireless Ad Hoc Networks
ICDCS '05 Proceedings of the 25th IEEE International Conference on Distributed Computing Systems
Fair resource allocation in peer-to-peer networks (extended version)
Computer Communications
Quality-of-service routing for supporting multimedia applications
IEEE Journal on Selected Areas in Communications
Optimal routing for UWB-based sensor networks
IEEE Journal on Selected Areas in Communications - Part 1
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As a consequence of providing Internet access to many clients over a multi-hop topology network with multiple backhauls, performance is affected by the number of hops that a client is from its backhaul. This spatial bias problem is formulated as a mixed-integer nonlinear programming problem that takes into consideration the end-to-end delay, both in terms of least-hop and load-balanced routing, and in terms of link capacity constraints in mesh structures in this paper. Accordingly, we proposed a sender-based load-balanced routing algorithm that minimizes the maximum end-to-end delay at the network layer, algorithms that achieve load-balanced on each backhaul, each branch of the backhaul, and each flow in multi-hop networks with orthogonal channels. Our experiment results demonstrate that this approach reduced end-to-end delay and outperforms other general routing algorithms.