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13	13	----
14	14	#pubATVblock("CollectivesortScp74")
15	15	This article presents a comprehensive description of an ant-based, self-organizing algorithms for data aggregation in networks of distributed tuple spaces, showing that data can emergently achieve a cluster-based spatial organization depending on the shape of the carried information.
16		-----
17		-#pubATVblock("SelforgcoordSac09")
18		-This paper provides a definition of self-organizing coordination, intended as the way of managing interactions in software system by relying on self-organizing metaphors. The key features of self-organizing coordination are also introduced and described and a series of examples of systems relying on self-organizing coordination approaches presented.
19		-----
20		-#pubATVblock("EcoservicesIns180")
21		-We believe this paper is currently the one which most clearly states the requirements and objectives of pervasive service ecosystems. It also sketches a chemical-inspired approach to eco-laws construction, where chemical concentration is used to manage a service "activity value", promoting some ecological patterns of behaviour.
22		-----
23		-#pubATVblock("ChemcoordSoarbook")
24		-This paper motivates the use of a model of chemical tuple spaces for the coordination of situated, adaptive, and diversity-accommodating pervasive systems.
25		-Moreover it is outlined a incarnation of that model on the TuCSoN coordination infrastructure, which can be suitably enhanced with modules supporting
26		-semantic coordination and execution engine for chemical-inspired coordination laws.
27		-----
28		-#pubATVblock("BiochemicaltuplespaceSac10")
29		-This paper introduces a model of service self-composition based on the use of ecological laws, which are specified by relying on the biochemical tuple space model. The paper shows how service lifetime can be completely managed in a self-organizing way as regards both survival/extinction and composition with other services.
30		-----
31		-#pubATVblock("SemCoordSac2010")
32		-This paper show how to empower a tuple space model with semantic techniques by equipping tuple spaces with the ontological description of the coordination
33		-domain and by describing tuples as domain individuals described in terms of the ontology.
34		-In particular, the paper shows how such a model is very useful to address distributed and open scenarios.
35		-The model was implemented in the coordination infrastructure TuCSoN.
36		-----
37		-#pubATVblock("MorphoEngBook13")
38		-The paper presents a computational model for capturing scenarios of spatial self-organisation.
39		-In particular it deals with the spatial pattern of gene expression generated in multicellular organisms during morphogenesis.
40		-I believe it can be of interest in the description of a possible model able to reproduce such a complex phenomenon, in the results obtained with the model of a particular organism (Drosophila Melanogaster) and in the considerations proposed for the use of morphogenetic mechanisms in the generation of artificial systems with similar behaviour.
41		-----
42		-#pubATVblock("SelforgcoordKer25years")
43		-Here we discuss the potential of coordination models and languages as the sources for the abstractions and the technologies around which complex computational systems -- like intelligent, knowledge-intensive, pervasive, self-organising systems -- can be designed and built.
44		-----
45		-#pubATVblock("FuzzycoordSac11")
46		-The paper shows an extension of semantic tuple spaces with fuzzy techniques in order to also represent vague/fuzzy knowledge so often required by real-world application scenarios.
47		-In particular in this paper it is extended the model of Description Logic tuple spaces with fuzziness in order to support fuzzy semantic coordination.
48		-----
49		-#pubATVblock("SpatialTaas10")
50		-This paper motivates the use of a model of chemical tuple spaces for the coordination of pervasive service ecosystems. A case study of adaptive pervasive displays is used to show patterns of service competition, and of creation of computational fields based on chemical diffusion.
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