We present ctrlTCP, a method to combine the congestion controls of multiple TCP connections. In contrast to the previous methods such as the Congestion Manager, ctrlTCP can couple all TCP flows that leave one sender, traverse a common bottleneck (e.g., a home user's thin uplink) and arrive at different destinations. Using ns-2 simulations and an implementation in the FreeBSD kernel, we show that our mechanism reduces queuing delay, packet loss, and short flow completion times while enabling precise allocation of the share of the available bandwidth between the connections according to the needs of the applications
for Shared Bottleneck Fairness Multi-homed hosts are becoming common and they have multiple paths be...
Today’s standard Internet transport protocol implementations perform flow and congestion control sep...
Achieving acceptable levels of TCP performance on high speed wide area networks with large bandwidth...
Many devices contain more than one network interface. There is scope for multi-path transfer to util...
The transmission control protocol (TCP) is the major trans- port protocol in the Internet. TCP and ...
Congestion occurs at a bottleneck along an Internet path; multiple flows between the same sender and...
Congestion occurs at a bottleneck along an Internet path; multiple flows between the same sender and...
Multipath transport protocols, which transmit data over multiple distinct paths in an end-to-end con...
Nowadays many hosts have more than one network interface. For example, mobile smartphones are genera...
Abstract—Congestion occurs at a bottleneck along an Internet path; multiple flows between the same s...
Communication between two Internet hosts using parallel connections may result in unwanted interfere...
Abstract—Compound TCP (CTCP) is a sender-side improve-ment for TCP in high-speed and long distance n...
This paper describes the engineering of a new congestion control for TCP motivated by theoretical re...
This paper focuses on RTT-fairness of multip le TCP flows over the Internet, and proposes a new cong...
The transmission control protocol (TCP) is the major trans- port layer protocol in the Internet tod...
for Shared Bottleneck Fairness Multi-homed hosts are becoming common and they have multiple paths be...
Today’s standard Internet transport protocol implementations perform flow and congestion control sep...
Achieving acceptable levels of TCP performance on high speed wide area networks with large bandwidth...
Many devices contain more than one network interface. There is scope for multi-path transfer to util...
The transmission control protocol (TCP) is the major trans- port protocol in the Internet. TCP and ...
Congestion occurs at a bottleneck along an Internet path; multiple flows between the same sender and...
Congestion occurs at a bottleneck along an Internet path; multiple flows between the same sender and...
Multipath transport protocols, which transmit data over multiple distinct paths in an end-to-end con...
Nowadays many hosts have more than one network interface. For example, mobile smartphones are genera...
Abstract—Congestion occurs at a bottleneck along an Internet path; multiple flows between the same s...
Communication between two Internet hosts using parallel connections may result in unwanted interfere...
Abstract—Compound TCP (CTCP) is a sender-side improve-ment for TCP in high-speed and long distance n...
This paper describes the engineering of a new congestion control for TCP motivated by theoretical re...
This paper focuses on RTT-fairness of multip le TCP flows over the Internet, and proposes a new cong...
The transmission control protocol (TCP) is the major trans- port layer protocol in the Internet tod...
for Shared Bottleneck Fairness Multi-homed hosts are becoming common and they have multiple paths be...
Today’s standard Internet transport protocol implementations perform flow and congestion control sep...
Achieving acceptable levels of TCP performance on high speed wide area networks with large bandwidth...