COORDINATION 2017

19th IFIP International Conference on Coordination Models and Languages
Neuchâtel, Switzerland, 19/06/2017–22/06/2017

Modern information systems rely increasingly on combining concurrent, distributed, mobile, adaptive, reconfigurable and heterogenous components. New models, architectures, languages and verification techniques are necessary to cope with the complexity induced by the demands of today's software development. Coordination languages have emerged as a successful approach, in that they provide abstractions that cleanly separate behaviour from communication, therefore increasing modularity, simplifying reasoning, and ultimately enhancing software development.

Building on the success of the previous editions, this conference provides a well-established forum for the growing community of researchers interested in models, languages, architectures, and implementation techniques for coordination.

topics of interest
  • Theoretical models and foundations for coordination: component composition, concurrency, mobility, dynamic, spatial and probabilistic aspects of coordination, emergent behaviour, types, semantics;
  • Specification, refinement, and analysis of architectures: patterns and styles, verification of functional and non-functional properties, including performance aspects;
  • Coordination, architectural, and interface definition languages: implementation, interoperability, heterogeneity;
  • Middlewares and coordination;
  • Dynamic software architectures: distributed mobile code, configuration, reconfiguration, networked computing, parallel, high-performance and cloud computing;
  • Nature- and bio-inspired approaches to coordination;
  • Coordination of multiagent and collective systems: models, languages, infrastructures, self-adaptation, self-organisation, distributed solving, collective intelligence and emerging behaviour;
  • Coordination and modern distributed computing: Web services, peer-to-peer networks, grid computing, context-awareness, ubiquitous computing, mobile computing;
  • Programming languages, middleware, tools, and environments for the development of coordinated applications;
  • Programming methodologies and verification of coordinated applications;
  • Industrial relevance of coordination and software architectures: programming in the large, domain-specific software architectures and coordination models, case studies;
  • Interdisciplinary aspects of coordination.