Smart window adjustment for XCP's congestion management

Yuan Rung Yang; Chia Tai Chan; Yaw Chung Chen; Yi-Cheng Chan

Smart window adjustment for XCP's congestion management

Yuan Rung Yang, Chia Tai Chan, Yaw Chung Chen, Yi-Cheng Chan

Department of Computer Science and Information Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

In the large bandwidth-delay product (BDP) networks, it has been demonstrated that the eXplicit Control Protocol, XCP, outperforms TCP and remains efficient, fair, and stable. However, once a packet drop is detected, an XCP's congestion management should follow TCP's Van Jacobson congestion control. In other words, congestion window should be halved and the fast retransmission/fast recovery, congestion avoidance algorithms should be applied. In the mean time, congestion window should be reduced by the value of the negative feedback. In this article, we present a smart window adjustment scheme for XCP's congestion management to shorten the response time and improve network performance.

Original language	English
Title of host publication	8th International Conference Advanced Communication Technology, ICACT 2006 - Proceedings
Pages	476-479
Number of pages	4
Volume	1
Publication status	Published - 2006 Nov 17
Event	8th International Conference Advanced Communication Technology, ICACT 2006 - Phoenix Park, Korea, Republic of Duration: 2006 Feb 20 → 2006 Feb 22

Other

Other	8th International Conference Advanced Communication Technology, ICACT 2006
Country	Korea, Republic of
City	Phoenix Park
Period	06-02-20 → 06-02-22

All Science Journal Classification (ASJC) codes

Engineering(all)

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@inproceedings{b922747302d141c0a3255dcc6ac08bbe,

title = "Smart window adjustment for XCP's congestion management",

abstract = "In the large bandwidth-delay product (BDP) networks, it has been demonstrated that the eXplicit Control Protocol, XCP, outperforms TCP and remains efficient, fair, and stable. However, once a packet drop is detected, an XCP's congestion management should follow TCP's Van Jacobson congestion control. In other words, congestion window should be halved and the fast retransmission/fast recovery, congestion avoidance algorithms should be applied. In the mean time, congestion window should be reduced by the value of the negative feedback. In this article, we present a smart window adjustment scheme for XCP's congestion management to shorten the response time and improve network performance.",

author = "Yang, {Yuan Rung} and Chan, {Chia Tai} and Chen, {Yaw Chung} and Yi-Cheng Chan",

year = "2006",

month = nov,

day = "17",

language = "English",

isbn = "8955191294",

volume = "1",

pages = "476--479",

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note = "8th International Conference Advanced Communication Technology, ICACT 2006 ; Conference date: 20-02-2006 Through 22-02-2006",

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TY - GEN

T1 - Smart window adjustment for XCP's congestion management

AU - Yang, Yuan Rung

AU - Chan, Chia Tai

AU - Chen, Yaw Chung

AU - Chan, Yi-Cheng

PY - 2006/11/17

Y1 - 2006/11/17

N2 - In the large bandwidth-delay product (BDP) networks, it has been demonstrated that the eXplicit Control Protocol, XCP, outperforms TCP and remains efficient, fair, and stable. However, once a packet drop is detected, an XCP's congestion management should follow TCP's Van Jacobson congestion control. In other words, congestion window should be halved and the fast retransmission/fast recovery, congestion avoidance algorithms should be applied. In the mean time, congestion window should be reduced by the value of the negative feedback. In this article, we present a smart window adjustment scheme for XCP's congestion management to shorten the response time and improve network performance.

AB - In the large bandwidth-delay product (BDP) networks, it has been demonstrated that the eXplicit Control Protocol, XCP, outperforms TCP and remains efficient, fair, and stable. However, once a packet drop is detected, an XCP's congestion management should follow TCP's Van Jacobson congestion control. In other words, congestion window should be halved and the fast retransmission/fast recovery, congestion avoidance algorithms should be applied. In the mean time, congestion window should be reduced by the value of the negative feedback. In this article, we present a smart window adjustment scheme for XCP's congestion management to shorten the response time and improve network performance.

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M3 - Conference contribution

AN - SCOPUS:33750964673

SN - 8955191294

SN - 9788955191295

VL - 1

SP - 476

EP - 479

BT - 8th International Conference Advanced Communication Technology, ICACT 2006 - Proceedings

T2 - 8th International Conference Advanced Communication Technology, ICACT 2006

Y2 - 20 February 2006 through 22 February 2006

ER -