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Abstract: In this position paper we motivate and describe the Congestion Manager (CM), a novel end-system architecture, which enables application adaptation to network congestion. The CM maintains congestion and path related information and allows flows to learn from each other and share information. It also exports an API to enable applications to learn about network status and regulate data transmission. As a result, applications are freed from having to detect network congestion and probe for spare... (Update)
Context of citations to this paper: More
...a far more complete picture. Other work has explored the advantages of sharing congestion state between flows within a single host [27, 21, 32] but to our knowledge the benefits of inter host sharing are unexplored (although the possibility is mentioned in [21] In the rest of...
.... Similarly, client side TCP or TCP like connections can be optimized using connection multiplexing [8] e.g. to share information [20, 21]) While the architecture proposed above does provide for seamless mobility of clients, performance may su#er from the need to always...
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2: ACM Computer Communication Review (context) - Floyd, explicit - 1994
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BibTeX entry: (Update)
H. Rahul, H. Balakrishnan, and S. Seshan. An End-System Architecture for Unified Congestion Management. In Proceedings of 7th Workshop on Hot Topics in Operating Systems, Mar. 1989. http://citeseer.ist.psu.edu/rahul99endsystem.html More
@inproceedings{ rahul99endsystem,
author = "Hariharan Shankar Rahul and Hari Balakrishnan and Srinivasan Seshan",
title = "An End-System Architecture for Unified Congestion Management",
booktitle = "Workshop on Hot Topics in Operating Systems",
pages = "52-57",
year = "1999",
url = "citeseer.ist.psu.edu/rahul99endsystem.html" }
Citations (may not include all citations):1330 Congestion Avoidance and Control - Jacobson - 1988
1312 A Generalized Processor Sharing Approach to Flow Control in .. (context) - Parekh, Gallager - 1993
790 Analysis and Simulations of a Fair-Queueing Algorithm (context) - Demers, Keshav et al. - 1990
733 RSVP: A new resource ReSerVation Protocol - Zhang, Deering et al. - 1993
612 Architectural Consideration for a New Generation of Protocol.. (context) - Clark, Tennenhouse - 1990
511 Supporting Real-Time Applications in an Integrated Services .. - Clark, Shenker et al. - 1992
423 End-to-end Arguments in System Design - Saltzer, Reed et al. - 1984
291 Receiver-driven Layered Multicast - McCanne, Jacobson et al. - 1996
290 IP Illustrated (context) - Wright, Stevens - 1995
246 Analysis of the Increase and Decrease Algorithms for Congest.. (context) - Chiu, Jain - 1989
215 RAP: An End-toend Rate-based Congestion Control Mechanism fo.. - Rejaie, Handley et al.
186 Rate Controlled Servers for Very High-Speed Networks - Kalmanek, Kanakia et al. - 1990
149 An Integrated Congestion Management Architecture for Interne.. - Balakrishnan, Rahul et al. - 1999
67 TCP Control Block Interdependence (context) - Touch - 1997
40 Addressing the Challenges of Web Data Transport - Padmanabhan - 1998
39 TCP Behavior of a Busy Web Server: Analysis and Improvements (context) - Balakrishnan, Padmanabhan et al. - 1998
32 Transparent Content Negotiation in HTTP (context) - Holtman - 1998
28 www-mash (context) - Network, http - 1998
13 A Transport Protocol for Heterogeneous Packet Flows - Li, Dwyer et al. - 1999
10 Mux protocol specification (context) - Gettys - 1996
8 A scheme for real-time communication services in wide-area n.. (context) - Ferrari, Verma - 1990
8 Session control protocol (context) - Spero - 1996
7 WebTP: A User-Centric Receiver-Driven Web Transport Protocol - Gupta - 1998
4 Scalable Feedback for Multicast Video Distribution in the In.. (context) - Bolot, Turletti et al. - 1994
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