Next: About this document ...
Up: Improving TCP Congestion Control
Previous: Conclusion
-
- 1
-
H. Balakrishnan, S. Seshan, and R. Katz.
Improving reliable transport and handoff performance in cellular
wireless networks.
ACM Wireless Networks, Dec. 1995.
- 2
-
L.S. Brakmo, S.W. O'Malley, and L.L. Peterson.
TCP Vegas: New techniques for congestion detection and avoidance.
In Proc. SIGCOMM'94, pages -, London, UK, Aug./Sept. 1994.
ACM.
- 3
-
L.S. Brakmo and L.L. Peterson.
Tcp vegas: End-to-end congestion avoidance on a global internet.
In IEEE Journal of Selected Areas in Communication, October,
1995.
- 4
-
D.D. Clark, M.L. Lambert, and L. Zhang.
NETBLT: A high throughput transfer protocol.
In Proc. SIGCOMM, pages 353-59, Stowe, Vermont, Aug. 1987.
ACM.
- 5
-
Kevin Fall and Sally Floyd.
Simulation-based comparisons of tahoe,reno, and sack tcp.
In Computer Communication Review, volume 26 No. 3, pages 5 -
21, July, 1996.
- 6
-
S. Floyd and V. Jacobson.
Random Early Detection gateways for congestion avoidance.
IEEE/ACM Transactions on Networking, 4(1):397-413, Aug 1993.
- 7
-
R. Jacobson, R. Braden, and D. Borman.
TCP extensions for high performance.
Technical report, May 1992.
Technical Report 1185.
- 8
-
V. Jacobson and S. Floyd.
TCP and explicit congestion notification.
In Computer Communication Review, volume 24 No. 5, pages 8 -
23, October, 1994.
- 9
-
P. Karn and C. Partridge.
Improving round-trip time estimates in reliable transport protocols.
In Computer Communication Review, volume 17 No. 5, pages 2 -
7, August 1987.
- 10
-
S. Keshav.
Packet-pair flow control.
http://www.cs.cornell.edu/skeshav/papers.html.
- 11
-
T.V. Lakshman, U. Madhow, and B. Suter.
Window-based error recovery and flow control with a slow
acknowledgement channel: a study of tcp/ip performance.
In Proceedings IEEE INFOCOM '97, number 3, pages 1199-209, Apr
1997.
- 12
-
D. Lin and H.T. Kung.
TCP fast recovery strategies: Analysis and improvements.
In Proceedings IEEE INFOCOM '98, Apr. 1998.
- 13
-
L.Kalampoukas, A. Varma, and K.K. Ramakrishnan.
Explicit window adaptation: a method to enhance TCP performance.
In Proceedings IEEE INFOCOM '98, pages 242 - 251, Apr. 1998.
- 14
-
M. Mathis and J. Mahdavi.
Forward acknowledgment: Refining tcp congestion control.
In Proc. SIGCOMM'96, pages 1-11, Stanford, California, Sept.
1996.
- 15
-
M. Mathis, J. Mahdavi, S. Floyd, and A. Romanow.
TCP selective acknowledgment options.
Technical report, Oct. 1996.
RFC 2018.
- 16
-
S. McCanne and S. Floyd.
ns-lbnl network simulator.
http://www-nrg.ee.lbl.gov/ns/.
- 17
-
C. Parsa and J.J. Garcia-Luna-Aceves.
Improving tcp performance over wireless networks at the link layer.
ACM Mobile Networks and Applications Journal, 1999.
to appear.
- 18
-
N. Samaraweera and G. Fairhurst.
Explicit loss indication and accurate RTO estimation for TCP
error recovery using satellite links.
In IEE Proceedings - Communications, volume 144 No. 1, pages 47
- 53, Feb., 1997.
- 19
-
W. Richard Stevens.
TCP/IP Illustrated, Volume 1.
Addison-Wesley, 1996.
- 20
-
J. Waldby, U. Madhow, and T.V. Lakshman.
Total acknowledgements: a robust feedback mechanism for end-to-end
congestion control.
In Sigmetrics '98 Performance Evaluation Review, volume 26,
1998.
- 21
-
Z. Wang and J. Crowcroft.
Eliminating periodic packet losses in the 4.3-Tahoe BSD TCP
congestion control algorithm.
In Computer Communication Review, volume 22 No. 2, pages 9 -
16, April, 1992.
- 22
-
Z. Wang and J. Crowcroft.
A new congestion control scheme: Slow start and search (Tri-S).
In Computer Communication Review, volume 21 No. 1, pages 32 -
43, Jan., 1991.
Chris Parsa
2000-01-25