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Abstract: The multicast-based distribution of streaming media is conjectured to be an important component of future network services. Congestion control has emerged as a major hurdle in the large-scale deployment of such services. Heterogeneity in transmission media, end-systems, and traffic flows have significantly increased the complexity of the problem. Researchers have sought to address the problem through such mechanisms as layered encoding and TCPstyle formulae. The end-to-end paradigm has been the ... (Update)
Context of citations to this paper: More
.... a small amount of feedback information (such as the top T most common receiver capabilities inferred from the multicast tree topology [7]) can provide even better performance. 5. CONCLUDING REMARKS This paper compared feedback free and feedback based layered multicast...
.... a better understanding of the general shape of multicast trees may be of equal if not greater value during the design of these protocols [1]. This leads to the question: how does shape relate to effi 2 IEEE INFOCOM 2001 ciency The shape of the distribution tree dictates how...
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BibTeX entry: (Update)
S. Jagannathan, K. Almeroth, and A. Acharya. Topology Sensitive Congestion Control for Real-Time Multicast. In Proceedings NOSSDAV 2000, June 2000. http://citeseer.ist.psu.edu/jagannathan00topology.html More
@misc{ jagannathan00topology,
author = "S. Jagannathan and K. Almeroth and A. Acharya",
title = "Topology Sensitive Congestion Control for Real-Time Multicast",
text = "S. Jagannathan, K. Almeroth, and A. Acharya. Topology Sensitive Congestion
Control for Real-Time Multicast. In Proceedings NOSSDAV 2000, June 2000.",
year = "2000",
url = "citeseer.ist.psu.edu/jagannathan00topology.html" }
Citations (may not include all citations):1330 Congestion avoidance and control - Jacobson - 1988
1023 RTP: A transport protocol for real-time applications - Schulzrinne, Casner et al. - 1996
101 Receiverdriven layered multicast - McCanne, Jacobson et al. - 1996
73 Organizing multicast receivers deterministically by packetlo.. - Levine, Paul et al. - 1998
72 The evolution of multicast: From the MBone to inter-domain m.. - Almeroth - 2000
63 Inference of multicast routing trees and bottleneck bandwidt.. - Ratnasamy, McCanne - 1999
57 Uniform versus priority dropping for layered video - Bajaj, Breslau et al. - 1998
56 Trends in wide area ip traffic patterns, a view from ames in.. - McCreary, Claffy
41 PLM: Fast convergence for cumulative layered multicast trans.. - Legout, Biersack - 2000
39 Video multicast over the Internet - Li, Ammar et al. - 1999
35 The macroscopic behaviour of the TCP congestion avoidance al.. (context) - Mathis, Semke et al. - 1997
21 A simple loss differentiation approach to layered multicast - Gopalakrishnan, Griffioen et al. - 2000
17 Stability and fairness issues in layered multicast - Gopalakrishnan, Griffioen et al. - 1999
12 MHealth: A real-time graphical multicast monitoring tool for.. - Makofske, Almeroth - 1999
8 Developing IP Multicast Networks (context) - Williamson - 1999
7 Real-time multicast tree visualization and monitoring - Makofske, Almeroth - 2000
2 Available from http://www (context) - Thaler, Adams et al.
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Managing IP Multicast Traffic: A First Look at the Issues.. - Almeroth (1998) (Correct)
Multicast Delivery of Web Pages or How to Make Web Servers .. - Ammar, Almeroth, Clark.. (1998) (Correct)
On the Use of Multicast Delivery to Provide a Scalable and.. - Almeroth, Ammar (1996) (Correct)
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