A Framework for Modelling and Implementing Self-Organising Coordination


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Mirko Viroli, Matteo Casadei, Andrea Omicini

Sung Y. Shin, Sascha Ossowski, Ronaldo Menezes, Mirko Viroli (eds.)
“24th Annual ACM Symposium on Applied Computing (SAC 2009)”, pages 1353-1360
ACM, Honolulu, Hawai'i, USA
8-12 March 2009

Research fields like pervasive computing are showing that the interactions between components in large-scale, mobile, and open systems are highly affected by unpredictability: self-organising techniques are increasingly adopted within infrastructures aimed at managing such interactions in a robust and adaptive way. Accordingly, in this paper we discuss the framework of self-organising coordination: coordination media spread over the network are in charge of managing interactions with each other and with agents solely according to local criteria, making interesting and fruitful global properties of the resulting system appearing by emergence—probability and timing typically playing a crucial role. We show that the TuCSoN coordination infrastructure can be used as a general platform for enacting self-organising coordination; we put it to test on two cases: an inter-space application of adaptive tuple clustering, and a intra-space application of chemical-like coordination reactions.

Publication

— authors

— editors

Sung Y. Shin, Sascha Ossowski, Ronaldo Menezes, Mirko Viroli

— status

published

— sort

paper in proceedings

— publication date

8-12 March 2009

— volume

24th Annual ACM Symposium on Applied Computing (SAC 2009)

— volume

III

— pages

1353-1360

— address

Honolulu, Hawai'i, USA

URLs

original page

identifiers

— DOI

10.1145/1529282.1529585

— ACM

1529585

— IRIS

11585/71835

— Scopus

2-s2.0-68749114381

— print ISBN

978-1-60558-166-8

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