FLC: A novel dynamic buffer tuner for shortening service roundtrip time over the Internet by eliminating user-level buffer overflow on the fly

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

doi:10.1007/11573937

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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. FLC: A novel dynamic buffer tuner for shortening service roundtrip time over the Internet by eliminating user-level buffer overflow on the fly, in Jiannong Cao, Wolfgang Nejdl and Ming Xu (ed), 6th International Workshop, APPT 2005 on Advanced Parallel Processing Technologies, Oct 27 2005, pp. 400-408. Hong Kong, China: Springer.

Source Title

Proceedings of 6th international workshop, APPT 2005 on advanced parallel processing technologies

Source Conference

6th International Workshop, APPT 2005 on Advanced Parallel Processing Technologies

Abstract

The proposed Fuzzy Logic Controller (FLC) is for dynamic buffer tuning at the user/server level. It eliminates buffer overflow on-line by ensuring that the buffer length always cover the queue length adaptively. The FLC contributes to prevent the AQM (active queue management) resources dished out at the system level from being wasted and to shorten the service roundtrip time (RTT) by reducing retransmission caused by user-level buffer overflow at the reception side. Combining fuzzy logic and the conventional PIDC model creates the FLC that operates with the {0,?}2 objective function. The fuzzy logic maintains the given safety margin about the reference point, which is symbolically represented by “0” in {0,?}2 . The short execution time of the FLC makes it suitable for supporting time-critical applications over the Internet.