A predictive self-tuning fuzzy-logic feedback rate controller
IEEE/ACM Transactions on Networking (TON)
A simple and efficient hop-by-hop congestion control protocol for wireless mesh networks
WICON '06 Proceedings of the 2nd annual international workshop on Wireless internet
Performance enhancement of flow control in 10GbE WANs
AIC'04 Proceedings of the 4th WSEAS International Conference on Applied Informatics and Communications
Design and performance of speculative flow control for high-radix datacenter interconnect switches
Journal of Parallel and Distributed Computing
IEEE Transactions on Wireless Communications
Survey: Flow control in ATM networks: a survey
Computer Communications
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Hop-by-hop flow control can be used to fairly share the bandwidth of a network among competing flows. No data is lost even in overload conditions; yet each flow gets access to the maximum throughput when the network is lightly loaded. However, some schemes for hop-by-hop flow control require too much memory; some of them are not resilient to errors. The authors propose a scheme for making hop-by-hop flow control resilient and show that it has advantages over the first several schemes proposed by Kung . They also describe a novel method for sharing the available buffers among the flows on a link; the scheme allows to potentially reduce the memory requirement (or increase the number of flows that can be supported) by an order of magnitude. Most of the work is described in the context of an ATM network that uses credit-based flow control. However, the ideas extend to networks in which flows can be distinguished, and to rate-based flow control schemes