Voice over IP and video applications continue to increase the amount of traffic over the Internet. These applications utilize the UDP protocol because TCP is not suitable for streaming applications. The flow and congestion control mechanisms of TCP can change the connection transmission rate too drastically, affecting the user-perceived quality of the transmission. Also, the TCP protocol provides a level of reliability that may waste network resources, retransmitting packets that have no value. On the other hand, the use of end-to-end flow and congestion control mechanisms for streaming applications has been acknowledged as an important measure to ease or eliminate the unfairness problem that exist when TCP and UDP share the same congested ...
We investigate the performance limitations in the case of a large number of long distance voice over...
Abstract. This paper presents a new TCP-friendly rate control al-gorithm (i.e., MTFRC) for streaming...
The power and connectivity of today's Internet presents the opportunity for interactive multime...
Voice over IP and video applications continue to increase the amount of traffic over the Internet. T...
While most of the traffic on the Internet today consists of TCP flows, conventional wisdom holds tha...
This paper describes UTFRC- Utility-driven TCP-Friendly Rate Control, a congestion control mechanism...
Today’s streaming applications typically use TCP or UDP to transmit media over the Internet. However...
The Internet is increasingly being used to support UDP applications, especially UDP-based multimedia...
Media streaming over wide area networks continue to be regarded as a challenging problem in spite of...
ii This paper is intended to introduce in the TCP-friendly Rate Control Protocol (TFRC) and to show ...
In this paper we present the Overlay Media Transport Protocol (OMTP), a novel yet simple protocol, w...
The stability of the Internet is at risk if the amount of voice and video traffic continues to incre...
The increasing growth on the Internet for multimedia streaming poses severe challenges for the domin...
We develop an analytical model for the congestion control mechanism of an Internet friendly transpor...
Besides the two classical techniques used to evaluate the performance of a protocol, computer simula...
We investigate the performance limitations in the case of a large number of long distance voice over...
Abstract. This paper presents a new TCP-friendly rate control al-gorithm (i.e., MTFRC) for streaming...
The power and connectivity of today's Internet presents the opportunity for interactive multime...
Voice over IP and video applications continue to increase the amount of traffic over the Internet. T...
While most of the traffic on the Internet today consists of TCP flows, conventional wisdom holds tha...
This paper describes UTFRC- Utility-driven TCP-Friendly Rate Control, a congestion control mechanism...
Today’s streaming applications typically use TCP or UDP to transmit media over the Internet. However...
The Internet is increasingly being used to support UDP applications, especially UDP-based multimedia...
Media streaming over wide area networks continue to be regarded as a challenging problem in spite of...
ii This paper is intended to introduce in the TCP-friendly Rate Control Protocol (TFRC) and to show ...
In this paper we present the Overlay Media Transport Protocol (OMTP), a novel yet simple protocol, w...
The stability of the Internet is at risk if the amount of voice and video traffic continues to incre...
The increasing growth on the Internet for multimedia streaming poses severe challenges for the domin...
We develop an analytical model for the congestion control mechanism of an Internet friendly transpor...
Besides the two classical techniques used to evaluate the performance of a protocol, computer simula...
We investigate the performance limitations in the case of a large number of long distance voice over...
Abstract. This paper presents a new TCP-friendly rate control al-gorithm (i.e., MTFRC) for streaming...
The power and connectivity of today's Internet presents the opportunity for interactive multime...