Add to ORKGAbstract—This paper proposes a framework for congestion control, called Binary Marking Congestion Control (BMCC) for high bandwidth-delay product networks. The basic components of BMCC are i) a packet marking scheme for obtaining high resolution congestion estimates using the existing bits available in the IP header for Explicit Congestion Notification (ECN) and ii) a set of load-dependent control laws that use these congestion estimates to achieve efficient and fair bandwidth allocations on high bandwidth-delay product networks, while maintaining a low persistent queue length and negligible packet loss rate. We present analytical models that predict and provide insights into the convergence properties of the protocol. Using extensive packe...
Load factor based congestion control schemes have shown to enhance network performance, in terms of ...
The design of an end-to-end Internet congestion control protocol that could achieve high utilization...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
This paper proposes a framework for congestion control, called Binary Marking Congestion Control (BM...
Many congestion control protocols use explicit feedback from the network to achieve high performance...
The success of the Internet can partly be attributed to the congestion control algorithm in the Tran...
The success of the Internet can partly be attributed to the congestion control algorithm in the Tran...
We design a congestion control protocol that uses the existing IP ECN bits to achieve efficient and ...
Theory and experiments show that as the per-flow product of band-width and latency increases, TCP be...
Congestion control can be improved by using more accurate congestion feedback from the network. Howe...
Since the bandwidth-delay products of Internet links keep increasing, issues with TCP’s conver-gence...
Abstract — Achieving efficient and fair bandwidth allocation while minimizing bottleneck queue lengt...
The success of the Internet can partly be attributed to the congestion control algorithm in the Tran...
a router-assisted congestion protocol that intends to balance the efficiency and the fairness contro...
Abstract—Two considerable problems for designing a new protocol in high bandwidth delay product (BDP...
Load factor based congestion control schemes have shown to enhance network performance, in terms of ...
The design of an end-to-end Internet congestion control protocol that could achieve high utilization...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
This paper proposes a framework for congestion control, called Binary Marking Congestion Control (BM...
Many congestion control protocols use explicit feedback from the network to achieve high performance...
The success of the Internet can partly be attributed to the congestion control algorithm in the Tran...
The success of the Internet can partly be attributed to the congestion control algorithm in the Tran...
We design a congestion control protocol that uses the existing IP ECN bits to achieve efficient and ...
Theory and experiments show that as the per-flow product of band-width and latency increases, TCP be...
Congestion control can be improved by using more accurate congestion feedback from the network. Howe...
Since the bandwidth-delay products of Internet links keep increasing, issues with TCP’s conver-gence...
Abstract — Achieving efficient and fair bandwidth allocation while minimizing bottleneck queue lengt...
The success of the Internet can partly be attributed to the congestion control algorithm in the Tran...
a router-assisted congestion protocol that intends to balance the efficiency and the fairness contro...
Abstract—Two considerable problems for designing a new protocol in high bandwidth delay product (BDP...
Load factor based congestion control schemes have shown to enhance network performance, in terms of ...
The design of an end-to-end Internet congestion control protocol that could achieve high utilization...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...