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VECoS 2019 : International Conference on Verification and Evaluation of Computer and Communication Systems | |||||||||||||||
Link: http://vecos.ensta-paristech.fr/2019/index.html | |||||||||||||||
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Call For Papers | |||||||||||||||
VECoS 2019 will be held in Porto, Portugal from 7-9 october 2019 and is co-located with the International Symposium on Formal Methods, FM 2019. The International Conference on Verification and Evaluation of Computer and Communication Systems (VECoS) was created by an Euro-Med network of researchers in computer science. Its first edition VECoS 2007 took place in Algiers, VECoS 2008 in Leeds, VECoS 2009 in Rabat, VECoS 2010 in Paris, VECoS 2011 in Tunis, VECoS 2012 in Paris, VECoS 2013 in Florence, VECoS 2014 in Bejaia, VECoS 2015 in Bucharest, VECoS 2016 in Tunis, VECoS 2017 in Montreal, VECoS 2018 in Grenoble. The aim of the VECoS conference is to bring together researchers and practitioners, in the areas of verification, control, performance, quality of service, dependability evaluation, in order to discuss the state-of-the-art and the challenges in modern computer and communication systems in which functional and extra-functional properties are strongly interrelated. Thus, the main motivation for VECoS is to encourage the cross-fertilization between the various formal verification and evaluation approaches, methods and techniques, and especially those developed for concurrent and distributed hardware/software systems. Beyond its technical and scientific goals, another main purpose of VECoS is to promote collaboration between participants in research and education in the area of computer science and engineering. We welcome contributions describing original research, practical experience reports and tool descriptions/demonstrations in the areas of verification, control, performance, quality of service and dependability evaluation. Topics of interest include, but are not limited to: Abstraction techniques Certification standards for real-time systems Compositional verification Correct-by-construction design Dependability assessment techniques Equivalence checking Model-checking Parameterized verification Performance and robustness evaluation Probabilistic verification QoS evaluation, planning and deployment RAMS (Reliability Availability Maintainability Safety) assessment Rigorous system design Security protocols verification Simulation techniques of discrete-event and hybrid systems Supervisory control Verification & validation of IoT Verification & validation of safety-critical systems Worst-case execution time analysis Application domains adaptive systems, cloud computing, communication protocols, computer-supported collaborative work systems, cyber-physical systems (CPS), high performance computing, internet of things, logistics systems, manufactory of the future, mixed criticality systems, mobile and wireless networking, operations research, programming languages, real-time and embedded operating systems, service oriented systems, telecommunication systems, ubiquitous systems, web services. wireless sensor networks, workflow systems. |
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