Random early detection gateways for congestion avoidance
IEEE/ACM Transactions on Networking (TON)
High performance TCP in ANSNET
ACM SIGCOMM Computer Communication Review
Fluid-based analysis of a network of AQM routers supporting TCP flows with an application to RED
Proceedings of the conference on Applications, Technologies, Architectures, and Protocols for Computer Communication
A control theoretic approach to active queue management
Computer Networks: The International Journal of Computer and Telecommunications Networking
Robust Control: The Parametric Approach
Robust Control: The Parametric Approach
Time-Delay Systems: Analysis, Optimization and Applications
Time-Delay Systems: Analysis, Optimization and Applications
An adaptive virtual queue (AVQ) algorithm for active queue management
IEEE/ACM Transactions on Networking (TON)
A robust proportional controller for AQM based on optimized second-order system model
Computer Communications
Design of rate-based controllers for active queue management in TCP/IP networks
Computer Communications
Wireless Personal Communications: An International Journal
Design of active queue management for robust control on access router for heterogeneous networks
EURASIP Journal on Wireless Communications and Networking
NetBump: user-extensible active queue management with bumps on the wire
Proceedings of the eighth ACM/IEEE symposium on Architectures for networking and communications systems
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Most high-speed links do not have adequate buffering and as a result Active Queue Management (AQM) schemes that utilize queue size information for congestion control cannot be effectively applied on these links. A high-speed link will, typically, have small buffers in relation to the bandwidth-delay product of the link. In this paper we argue that rate-based AQM schemes be used for such links. The goal here is to match the aggregate rate of the active TCP connections to the available capacity while maintaining minimal queue size and high link utilization. The AQM scheme described here employs a Proportional-Integral (PI) control strategy and explicitly takes into account the time delay in the control process.