Difference between revisions of "Coordination 2020"
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==Topics== | ==Topics== | ||
| − | + | *Theoretical models and foundations for coordination: component composition, concurrency, mobility, dynamic, spatial and probabilistic aspects of coordination, logic, emergent behaviour, types, semantics; | |
| − | + | *Specification, refinement, and analysis of architectures: patterns and styles, verification of functional and non-functional properties, including performance and security aspects; | |
| − | + | *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; | |
| − | + | *Coordination platforms for infrastructures of emerging new application domains like IoT, fog- and edge-computing; | |
| − | + | *Programming methodologies, languages, middleware, tools, and environments for the development and verification of coordinated applications; | |
| − | + | *Tools, languages and methodologies for secure coordination; | |
| − | + | *Industrial relevance of coordination and software architectures: programming in the large, domain-specific software architectures and coordination models, case studies; | |
| − | + | *Interdisciplinary aspects of coordination; | |
| − | + | *Industry-led efforts in coordination and case studies. | |
| − | |||
'''Special topics:''' | '''Special topics:''' | ||
Revision as of 10:40, 17 April 2020
| Coordination 2020 | |
|---|---|
22nd International Conference on Coordination Models and Languages
| |
| Event in series | Coordination |
| Subevent of | DisCoTec 2020 |
| Dates | 2020/06/15 (iCal) - 2020/06/19 |
| Homepage: | https://www.discotec.org/2020/coordination |
| Location: | |
| Important dates | |
| Abstracts: | 2020/02/17 |
| Papers: | 2020/02/28 |
| Submissions: | 2020/02/28 |
| Notification: | 2020/04/10 |
| Camera ready due: | 2020/04/24 |
| Keynote speaker: | Nathalie Bertrand, Holger Hermanns, Peter Kriens, Ken McMillan |
| Table of Contents | |
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Topics
- Theoretical models and foundations for coordination: component composition, concurrency, mobility, dynamic, spatial and probabilistic aspects of coordination, logic, emergent behaviour, types, semantics;
- Specification, refinement, and analysis of architectures: patterns and styles, verification of functional and non-functional properties, including performance and security aspects;
- 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;
- Coordination platforms for infrastructures of emerging new application domains like IoT, fog- and edge-computing;
- Programming methodologies, languages, middleware, tools, and environments for the development and verification of coordinated applications;
- Tools, languages and methodologies for secure coordination;
- Industrial relevance of coordination and software architectures: programming in the large, domain-specific software architectures and coordination models, case studies;
- Interdisciplinary aspects of coordination;
- Industry-led efforts in coordination and case studies.
Special topics:
- Microservices (in collaboration with the Microservices Community)
- Techniques to reason about interacting digital contracts