A novel R^2-FLC dynamic buffer size tuner to support time-critical applications over the Internet by improving logical channel fault tolerance to shorten roundtrip time

Lin, W.; Wong, A.; Dillon, Tharam S.

doi:10.1109/PRDC.2005.12

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Authors

Lin, W.

Wong, A.

Dillon, Tharam S.

Date

2005

Type

Conference Paper

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Citation

Lin, W. and Wong, A. and Dillon, T.S. 2005. A novel R^2-FLC dynamic buffer size tuner to support time-critical applications over the Internet by improving logical channel fault tolerance to shorten roundtrip time, in Danielle C. Martin (ed), 11th Pacific Rim International Symposium on Dependable Computing (PRDC'05), Dec 12 2005, pp. 295-299. Changsha, Hunan, China: IEEE.

Source Title

Proceedings of 11th pacific rim international symposium on dependable computing (PRDC'05)

Source Conference

11th Pacific Rim International Symposium on Dependable Computing (PRDC'05)

Abstract

This paper has two original and important proposals: a) the self-similarity ( 2 S ) traffic filter for real-time applications and b) the R2 - FLC (Reconfigurable Real-time Fuzzy Logic Controller) for on-line dynamic buffer size tuning. Inclusion of the 2 S filter into the extant RTPD (Real-time Traffic Detector) model creates the novel Enhanced RTPD (ERTPD) framework. The R2 - FLC uses the ERPTD to detect the current traffic pattern of a logical channel on the fly and auto-tunes accordingly. The auto-tuning process, which is system reconfiguration in the R2 - FLC context, neutralizes the ill effects by changing traffic patterns on the accuracy and stability of the dynamic buffer size tuning process.