<P>AIMS & SCOPE<BR><BR>Building on the success of the tenth previous editions (1998–2008), a<BR>special track on coordination models, languages and applications will<BR>be held at SAC 2009. Over the last decade, we have witnessed the<BR>emergence of models, formalisms and mechanisms to describe concurrent<BR>and distributed computations and systems based on the concept of<BR>coordination. The purpose of a coordination model is to enable the<BR>integration of a number of, possibly heterogeneous, components<BR>(processes, objects, agents) in such a way that the resulting ensemble<BR>can execute as a whole, forming a software system with desired<BR>characteristics and functionalities which possibly takes advantage of<BR>parallel and distributed systems. The coordination paradigm is closely<BR>related to other contemporary software engineering approaches such as<BR>multi–agent systems, service–oriented architectures, component–based<BR>systems and related middleware platforms. Furthermore, the concept of<BR>coordination exists in many other Computer Science areas such as<BR>workflow systems, cooperative information systems, distributed<BR>artificial intelligence, and internet technologies.<BR><BR>After more than a decade of research, the coordination paradigm is<BR>gaining increased momentum in state–of–the–art engineering paradigms<BR>such as multi–agent systems and service–oriented architectures: in the<BR>first case, coordination abstractions are perceived as essential to<BR>design and support the working activities of agent societies; in the<BR>latter case, service coordination, orchestration, and choreography are<BR>going to be essential aspects of the next generations of systems based<BR>on Web services.<BR><BR>The Special Track on Coordination Models, Languages and Applications<BR>takes a deliberately a broad view of what constitutes coordination.<BR>Accordingly, major topics of interest this year will include:<BR><BR>– Novel models, languages, programming and implementation techniques<BR>– Applications of coordination technologies<BR>– Industrial points of view: experiences, applications, open issues<BR>– Internet– and Web–based coordinated systems<BR>– Coordination of multi–agent systems, including mobile agents,<BR>intelligent agents, and agent–based simulations<BR>– Coordination in Service–oriented architectures and Web Services<BR>– Languages for service description and composition<BR>– Models, frameworks and tools for Group Decision Making<BR>– Modern Workflow Management Systems and Case–Handling<BR>– Coordination in Computer Supported Cooperative Work<BR>– Software architectures and software engineering techniques<BR>– Configuration and Architecture Description Languages<BR>– Coordination Middleware and Infrastructures<BR>– Coordination in GRID systems<BR>– Emergent Coordination: Swam based, Stigmergy<BR>– Coordination technologies, systems and infrastructures<BR>– Relationship with other computational models such as object<BR>oriented, declarative (functional, logic, constraint), programming or<BR>their extensions with coordination capabilities<BR>– Formal aspects (semantics, reasoning, verification)<BR></P>
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SAC
City
Waikiki, HI
Country
United States
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